US4902360A - Permanent magnet alloy for elevated temperature applications - Google Patents
Permanent magnet alloy for elevated temperature applications Download PDFInfo
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- US4902360A US4902360A US07/266,226 US26622688A US4902360A US 4902360 A US4902360 A US 4902360A US 26622688 A US26622688 A US 26622688A US 4902360 A US4902360 A US 4902360A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F1/00—Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties
- H01F1/01—Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials
- H01F1/03—Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity
- H01F1/032—Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials
- H01F1/04—Magnets or magnetic bodies characterised by the magnetic materials therefor; Selection of materials for their magnetic properties of inorganic materials characterised by their coercivity of hard-magnetic materials metals or alloys
- H01F1/047—Alloys characterised by their composition
- H01F1/053—Alloys characterised by their composition containing rare earth metals
- H01F1/055—Alloys characterised by their composition containing rare earth metals and magnetic transition metals, e.g. SmCo5
- H01F1/057—Alloys characterised by their composition containing rare earth metals and magnetic transition metals, e.g. SmCo5 and IIIa elements, e.g. Nd2Fe14B
Definitions
- permanent magnet alloys and particularly permanent magnet alloys embodying one or more rare earth elements with a transistion element iron and boron, for applications requiring permanent magnet properties at elevated temperatures.
- permanent magnets used in electric motors may encounter motor operating temperatures in excess of 150° C.
- the permanent magnet alloy R 2 FE 14 B has a temperature dependence of magnetization of -0.08% to -0.12% per °C. over the temperature range of -50° C. to 150° C. Accordingly, this permanent magnet alloy is limited with respect to high-temperature applications, and particularly use in electric motors operating at temperatures in excess of 150° C. For practical applications, it is necessary that permanent magnet alloys at the maximum operating temperature exhibit a magnetization of 8000 Gauss.
- a more specific object of the invention is to provide a permanent magnet alloy of a composition wherein the alloy is characterized by a low temperature coefficient of magnetization, e.g., ⁇ less than -0.01% over °C. over a temperature range of over ⁇ -50° C. to 250° C., with a magnetization greater than 7500 Gauss at room temperature, e.g., 23 ⁇ 2° C.
- the alloy composition is a combination of rare earth elements (R), in atomic percent, in combination with the base composition R 2 Fe 14 B.
- R is neodymium 3 to 11% and balance holmium. The following are preferred limits for Nd and Ho and also preferred additional and optional rare earth elements.
- the permanent magnet alloy of the invention including optional additional rare earth elements satisfies the above-stated properties with respect to a low temperature coefficient of magnetization in combination with magnetization at room temperature sufficient to enable the permanent magnets made from the alloy to retain sufficient magnetization for use at elevated temperatures.
- the permanent magnet alloy of the invention consists essentially of R 2 FE 14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 3 to 11 and balance Ho.
- the alloy may optionally contain the additional rare earth elements gadolinium (Gd) up to 10%; terbium (Tb) up to 15%; dysprosium (Dy) up to 16%; erbium (Er) up to 18%, and thulium (Tm) up to 12%.
- Gd gadolinium
- Tb terbium
- Dy dysprosium
- Er erbium
- Tm thulium
- Ho is preferably within the range of 72 to 92%.
- the temperature coefficient of magnetization or the temperature dependence of magnetization in alloys of neodymium and iron result from the thermal effects on the ordered magnetic moment of the Nd sublattice and the iron sublattice.
- the magnetic moment of the Nd sublattice decreases much more rapidly than that of the iron sublattice. This results in a strong temperature dependence of the combined magnetic moment of Nd and iron. Consequently, as is well recognized, this alloy is not suitable to provide a constant flux in the presence of temperature variations.
- heavy rare earth elements such as Gd, Tb, Dy, Ho, Er, Tm, and Yb
- the rare earth sublattice likewise exhibits a decrease in magnetic moment with increased temperature.
- the alpha values for the alloys are in the desired range; however, magnetization (M s ) is lower than required. This is the case with respect to the alloys containing the heavy rare earth elements Ho, Tb and Dy.
- the M s values are at acceptable levels but ⁇ is not within the required range.
- Nd was added to the heavy rare earth element containing alloys of Table I.
- the results from the standpoint of the combination of M s and alpha by the addition of Nd is shown by the data presented in Tables II through Tables VII.
- magnitization curve As a function of temperature that a combination of two or more heavy rare earth elements with neodynium-iron-boron may provide optimum properties in accordance with the invention.
- Tm can be varied from 0 to 13% in combination with Nd and Ho within the range of 83 to 96% to achieve the desired combination of properties.
- Table XIV shows that with Nd within the range of 7 to 11% the properties are obtained if Ho is maintained within the range of 78 to 90% and Tb varies 9 to 12%.
- Table XV the desired combination of properties are achieved with alloys containing the addition of 7 to 11%, Ho 75 to 90%, and Dy within the range of 0 to 15%.
- Table XVI shows that the desired combination of properties may be achieved with 7 to 11% Nd, 82 to 90 % Ho, and 0 to 10% Gd.
- Nd is combined with Tb, Gd and Ho. Specifically, the data show that if Nd varies from 1 to 10%, Tb 0 to 10%, and Gd 0 to 4% with Ho within the range of 80 to 90% the desired combination of properties is achieved.
- Table XXI shows combinations of Nd with Er, Tm and Ho. The data shows that the desired combination of properties may be achieved if Nd varies from 3 to 11%, Tm from 0 to 12%, Er from 0 to 18%, and Ho from 76 to 92%.
- Table XXIII shows alloys wherein the Nd is combined with Tb, Dy and Ho. The desired combination of properties is achieved if Nd varies from 9 to 11, Dy varies from 0 to 15, Tb from 0 to 12 and Ho is within the range from 75 to 88%.
- Table XXV shows alloy compositions of Nd with Gd, Dy and Ho if Nd varies from 8 to 12%, Dy from 0 to 15%, Gd from 0 to 8%, and Ho is within the range from 72 to 88%, the alloys exhibit the desired combination of properties.
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- Power Engineering (AREA)
- Hard Magnetic Materials (AREA)
Abstract
A permanent magnet alloy consisting essentially of R2 Fe14 B, wherein, R is a combination of rare earth elements consisting essentially of, in atomic percent, neodymium 3 to 11 and balance holmium. The alloy may include optional additions of the rare earth elements gadolinium up to 10%, terbium up to 15%, dysprosium up to 16%, erbium up to 18% and thulium up to 12%.
Description
This application is a continuation of application Ser. No. 010,738 , filed February 4, 1987, abandoned.
It is known to use permanent magnet alloys, and particularly permanent magnet alloys embodying one or more rare earth elements with a transistion element iron and boron, for applications requiring permanent magnet properties at elevated temperatures. Specifically in this regard, permanent magnets used in electric motors may encounter motor operating temperatures in excess of 150° C. The permanent magnet alloy R2 FE14 B has a temperature dependence of magnetization of -0.08% to -0.12% per °C. over the temperature range of -50° C. to 150° C. Accordingly, this permanent magnet alloy is limited with respect to high-temperature applications, and particularly use in electric motors operating at temperatures in excess of 150° C. For practical applications, it is necessary that permanent magnet alloys at the maximum operating temperature exhibit a magnetization of 8000 Gauss.
It is accordingly an object of the present invention to provide a permanent magnet alloy of a combination of rare earth elements, the transition element iron and boron with the alloy having improved magnetization at elevated temperatures.
A more specific object of the invention is to provide a permanent magnet alloy of a composition wherein the alloy is characterized by a low temperature coefficient of magnetization, e.g., α less than -0.01% over °C. over a temperature range of over α-50° C. to 250° C., with a magnetization greater than 7500 Gauss at room temperature, e.g., 23 ±2° C.
The alloy composition is a combination of rare earth elements (R), in atomic percent, in combination with the base composition R2 Fe14 B. R is neodymium 3 to 11% and balance holmium. The following are preferred limits for Nd and Ho and also preferred additional and optional rare earth elements.
______________________________________ Nd 4-10 5-11 7-11 7-11 7-11 Ho 83-96 76-94 78-90 75-95 82-92 Tm 0-13 -- -- -- -- Er -- 0-18 -- -- -- Tb -- -- 0-12 -- -- Dy -- -- -- 0-15 -- Gd -- -- -- -- 0-10 Nd 1-10 6-10 3-11 9-11 8-12 Ho 80-90 76-96 76-92 75-88 72-88 Tb 0-10 -- -- 0-12 -- Gd 0-4 -- -- -- 0-8 Dy -- 0-8 -- 0-15 0-15 Er -- 0-14 0-18 -- -- Tm -- -- 0-12 -- -- ______________________________________
The permanent magnet alloy of the invention including optional additional rare earth elements satisfies the above-stated properties with respect to a low temperature coefficient of magnetization in combination with magnetization at room temperature sufficient to enable the permanent magnets made from the alloy to retain sufficient magnetization for use at elevated temperatures.
This is achieved by combining the light rare earth element neodymium (Nd) with the heavy rare earth element holmium (Ho) with the transition element iron and boron. The heavy rare earth element provides the desired low temperature coefficient of magnetization (α) and neodymium provides the required high magnetization (Ms). In this manner, as the operating temperature of the permanent magnet made from alloy is increased the base magnetization being at a relatively high level in combination with the temperature dependence or the temperature coefficient of magnetization, being low, permanent magnet properties are retained, specifically magnetization, at relatively high operating temperatures.
The permanent magnet alloy of the invention consists essentially of R2 FE14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 3 to 11 and balance Ho.
The alloy may optionally contain the additional rare earth elements gadolinium (Gd) up to 10%; terbium (Tb) up to 15%; dysprosium (Dy) up to 16%; erbium (Er) up to 18%, and thulium (Tm) up to 12%. Ho is preferably within the range of 72 to 92%.
The temperature coefficient of magnetization or the temperature dependence of magnetization in alloys of neodymium and iron result from the thermal effects on the ordered magnetic moment of the Nd sublattice and the iron sublattice. The magnetic moment of the Nd sublattice decreases much more rapidly than that of the iron sublattice. This results in a strong temperature dependence of the combined magnetic moment of Nd and iron. Consequently, as is well recognized, this alloy is not suitable to provide a constant flux in the presence of temperature variations. Although with heavy rare earth elements, such as Gd, Tb, Dy, Ho, Er, Tm, and Yb, the rare earth sublattice likewise exhibits a decrease in magnetic moment with increased temperature. It has been found, however, in accordance with the resent invention, that these moments oppose the larger moment of iron sublattices to result in enhancing the net moment of the alloy in the presence of temperature increases. It has further been found with respect to these aloys in accordance with the invention, that although this net improvement in magnetic moment is observed and achieved, the magnetization of these alloys is less than required for high temperature application. It is further been found in accordance with the invention that the magnetic moment may be increased by substituting part of the heavy rare earth element content with heavy rare earth-iron-boron alloys with neodymium alone or with one or more additional heavy rare earth elements. In this manner, the required combination of high magnetization and low temperature coefficient of magnetization is achieved. It is this combination of properties that is necessary for the production of useful permanent magnets for applicatios requiring the retention of magnetization at increased temperatures during application.
The temperature dependence of magnetization (α) of the heavy rare earth-iron-boron alloys are shown in Table I.
TABLE I
______________________________________
Magnetization M.sub.s and Temperature Coefficient
of Heavy Rare Earth R.sub.2 Fe.sub.14 B Alloys*
M.sub.s (-50-200° C.)
Alloy Bohr magneton/formula unit
% per °C.
______________________________________
Ho.sub.2 Fe.sub.14 B
15.69 +0.016
Tb.sub.2 Fe.sub.14 B
13.27 -0.007
Dy.sub.2 Fe.sub.14 B
13.70 +0.007
Gd.sub.2 Fe.sub.14 B
16.56 -0.053
Er.sub.2 FE.sub.14 B
17.54 -0.042
Tm.sub.2 Fe.sub.14 B
21.80 -0.078
______________________________________
*α = (MT2 - MT1)/M.sub.T1 × (T.sub.2 - T.sub.1) in percent,
M.sub.T1 and M.sub.T2 are the magnetizations at temperatures T.sub.1 and
T.sub.2 respectively.
As may be seen from the data presented Table I, the alpha values for the alloys are in the desired range; however, magnetization (Ms) is lower than required. This is the case with respect to the alloys containing the heavy rare earth elements Ho, Tb and Dy. For the alloys of Table I having the heavy rare earth elements Gd, Er and Tm, the Ms values are at acceptable levels but α is not within the required range.
In accordance with the invention and to demonstrate the effect of Nd with respect to increasing Ms, Nd was added to the heavy rare earth element containing alloys of Table I. The results from the standpoint of the combination of Ms and alpha by the addition of Nd is shown by the data presented in Tables II through Tables VII.
TABLE II ______________________________________ Magnetization and Temperature Coefficient of (Nd.sub.1-x Tb.sub.x).sub.2 Fe.sub.14 B Alloys Where x = 0 to 100% W % Nd.sub.2 Fe.sub.14 B+ X % Tb.sub.2 Fe.sub.14 B COMPO- SITION M(25C) M(25C) ALPHA W X MB/FU GAUSS -50-200 R SQUARE ______________________________________ 100 0 32.60 14670 -.099 .967 98 2 32.21 14496 -.099 .967 96 4 31.83 14322 -.098 .967 94 6 31.44 14148 -.097 .966 92 8 31.05 13974 -.097 .966 90 10 30.67 13800 -.096 .965 88 12 30.28 13626 -.095 .965 86 14 29.89 13452 -.094 .964 84 16 29.51 13278 -.093 .964 82 18 29.12 13104 -.092 .963 80 20 28.73 12930 -.091 .963 78 22 28.35 12756 -.091 .962 76 24 27.96 12582 -.090 .961 74 26 27.57 12408 -.089 .961 72 28 27.19 12234 -.088 .960 70 30 26.80 12060 -.087 .959 68 32 26.41 11886 -.085 .958 66 34 26.03 11713 -.084 .957 64 36 25.64 11539 -.083 .956 62 38 25.25 11365 -.082 .955 60 40 24.87 11191 -.081 .954 58 42 24.48 11017 -.080 .953 56 44 24.09 10843 -.078 .952 54 46 23.71 10669 -.077 .950 52 48 23.32 10495 -.075 .949 50 50 22.94 10321 -.074 .947 48 52 22.55 10147 -.073 .945 46 54 22.16 9973 -.071 .943 44 56 21.78 9799 -.069 .941 42 58 21.39 9625 -.068 .939 40 60 21.00 9451 -.066 .936 38 62 20.62 9277 -.064 .933 36 64 20.23 9103 -.062 .929 34 66 19.84 8929 -.060 .926 32 68 19.46 8755 -.058 .921 30 70 19.07 8581 -.056 .916 28 72 18.68 8407 -.054 .910 26 74 18.30 8233 -.051 .903 24 76 17.91 8059 -.049 .895 22 78 17.52 7885 -.046 .885 20 80 17.14 7711 -.044 .873 18 82 16.75 7537 -.041 .858 16 84 16.36 7363 -.038 .839 14 86 15.98 7189 -.035 .816 12 88 15.59 7015 -.032 .785 10 90 15.20 6841 - .028 .744 8 92 14.82 6667 -.024 .689 6 94 14.43 6493 -.020 .611 4 96 14.04 6319 -.016 .501 2 98 13.66 6145 -.012 .351 0 100 13.27 5972 -.007 .167 ______________________________________
TABLE III ______________________________________ Magnetization and Temperature Coefficient of (Nd.sub.1-x Gd.sub.x).sub.2 Fe.sub.14 B Alloys Where x = 0 to 100% W % Nd.sub.2 Fe.sub.14 B+ X % Gd.sub.2 Fe.sub.14 B COMPO- SITION M(25C) M(25C) ALPHA W X MB/FU GAUSS -50-200 R SQUARE ______________________________________ 100 0 32.60 14670 -.099 .967 98 2 32.28 14526 -.099 .967 96 4 31.96 14381 -.099 .966 94 6 31.64 14237 -.098 .966 92 8 31.32 14093 -.098 .965 90 10 31.00 13498 -.097 .965 88 12 30.68 13626 -.097 .965 86 14 30.35 13452 -.096 .964 84 16 30.03 13515 -.096 .964 82 18 29.71 13371 -.095 .963 80 20 29.39 13227 -.094 .963 78 22 29.07 13082 -.094 .962 76 24 28.75 12938 -.093 .961 74 26 28.43 12794 -.093 .961 72 28 28.11 12649 -.092 .960 70 30 27.79 12505 -.091 .959 68 32 27.47 12361 -.091 .958 66 34 27.15 12216 -.090 .958 64 36 26.83 12072 -.089 .957 62 38 26.51 11928 -.089 .956 60 40 26.19 11784 -.088 .955 58 42 25.86 11639 -.087 .954 56 44 25.54 11495 -.087 .953 54 46 25.22 11351 -.086 .952 52 48 24.90 11206 -.085 .951 50 50 24.58 11062 -.084 .949 48 52 24.26 10918 -.083 .948 46 54 23.94 10773 -.083 .947 44 56 23.62 10629 -.082 .945 42 58 23.30 10485 -.081 .944 40 60 22.98 10340 -.080 .942 38 62 22.66 10196 -.079 .940 36 64 22.34 10052 -.078 .938 34 66 22.02 9907 -.077 .936 32 68 21.70 9763 -.076 .934 30 70 21.37 9619 -.075 .931 28 72 21.05 9474 -.074 .928 26 74 20.73 9330 -.072 .926 24 76 20.41 9186 -.071 .922 22 78 20.09 9041 -.070 .919 20 80 19.77 8897 -.069 .915 18 82 19.45 8753 -.068 .911 16 84 19.13 8608 -.066 .907 14 86 18.81 8464 -.065 .902 12 88 18.49 8320 -.063 .896 10 90 18.17 8175 -.063 .890 8 92 17.85 8031 -.060 .883 6 94 17.53 7887 -.059 .875 4 96 17.21 7742 -.057 .867 2 98 16.88 7598 -.055 .857 0 100 16.56 7454 -.053 .846 ______________________________________
TABLE IV ______________________________________ Magnetization and Temperature Coefficient of (Nd.sub.1-x Dy.sub.x).sub.2 Fe.sub.14 B Alloys Where x = 0 to 100% W % Nd.sub.2 Fe.sub.14 B+ X % Dy.sub.2 Fe.sub.14 B COMPO- SITION M(25C) M(25C) ALPHA W X MB/FU GAUSS -50-200 R SQUARE ______________________________________ 100 0 32.60 14670 -.099 .967 98 2 32.21 14496 -.099 .966 96 4 31.83 14322 -.098 .966 94 6 31.44 14148 -.097 .965 92 8 31.05 13974 -.096 .964 90 10 30.67 13800 -.095 .963 88 12 30.28 13626 -.094 .962 86 14 29.89 13452 -.093 .961 84 16 29.51 13278 -.092 .960 82 18 29.12 13104 -.091 .958 80 20 28.73 12930 -.090 .957 78 22 28.35 12756 -.089 .956 76 24 27.96 12582 -.087 .954 74 26 27.57 12408 -.086 .953 72 28 27.19 12234 -.085 .951 70 30 26.80 12060 -.084 .949 68 32 26.41 11886 -.082 .947 66 34 26.03 11713 -.081 .945 64 36 25.64 11539 -.080 .942 62 38 25.25 11365 -.078 .940 60 40 24.87 11191 -.077 .937 58 42 24.48 11017 -.075 .934 56 44 24.09 10843 -.073 .930 54 46 23.71 10669 -.072 .926 52 48 23.32 10495 -.070 .922 50 50 22.94 10321 -.068 .917 48 52 22.55 10147 -.066 .912 46 54 22.16 9973 -.064 .906 44 56 21.78 9799 -.062 .899 42 58 21.39 9625 -.060 .892 40 60 21.00 9421 -.058 .883 38 62 20.62 9277 -.056 .873 36 64 20.23 9103 -.054 .861 34 66 19.84 8929 -.051 .847 32 68 19.46 8755 -.049 .831 30 70 19.07 8581 -.046 .812 28 72 18.68 8407 -.043 .789 26 74 18.30 8233 -.040 .761 24 76 17.91 8059 -.037 .728 22 78 17.52 7885 -.034 .686 20 80 17.14 7711 -.031 .634 18 82 16.75 7537 -.027 .570 16 84 16.36 7363 -.023 .491 14 86 15.98 7189 -.020 .395 12 88 15.59 7015 -.015 .283 10 90 15.20 6841 -.011 .164 8 92 14.82 6667 -.006 .060 6 94 14.43 6493 -.001 .003 4 96 14.04 6319 -.004 .021 2 98 13.66 6145 -.009 .110 0 100 13.27 5972 -.015 .243 ______________________________________
TABLE V ______________________________________ Magnetization and Temperature Coefficient of (Nd.sub.1-x Tm.sub.x).sub.2 Fe.sub.14 B Alloys Where x = 0 to 100% W % Nd.sub.2 Fe.sub.14 B+ X % Tm.sub.2 Fe.sub.14 B COMPO- SITION M(25C) M(25C) ALPHA W X MB/FU GAUSS -50-200 R SQUARE ______________________________________ 100 0 32.60 14670 -.099 .967 98 2 32.38 14573 -.099 .965 96 4 32.17 14476 -.099 .963 94 6 31.95 14378 -.099 .961 92 8 31.74 14281 -.098 .958 90 10 31.52 14184 -.098 .955 88 12 31.30 14087 -.098 .952 86 14 31.09 13990 -.097 .949 84 16 30.87 13892 -.097 .946 82 18 30.66 13795 -.097 .943 80 20 30.44 13698 -.096 .940 78 22 30.22 13601 -.096 .936 76 24 30.01 13504 -.096 .932 74 26 29.79 13407 -.095 .928 72 28 29.58 13309 -.095 .924 70 30 29.36 13212 -.095 .919 68 32 29.14 13115 -.094 .914 66 34 28.93 13018 -.094 .910 64 36 28.71 12921 -.094 .904 62 38 28.50 12823 -.093 .899 60 40 28.28 12726 -.093 .893 58 42 28.06 12629 -.093 .887 56 44 27.85 12535 -.092 .881 54 46 27.63 12435 -.092 .875 52 48 27.42 12337 -.091 .868 50 50 27.20 12240 -.091 .861 48 52 26.98 12143 -.091 .854 46 54 26.77 12046 -.090 .847 44 56 26.55 11949 -.090 .839 42 58 26.34 11851 -.089 .831 40 60 26.12 11754 -.089 .822 38 62 25.90 11657 -.088 .813 36 64 25.69 11650 -.088 .804 34 66 25.47 11463 -.088 .795 32 68 25.26 11366 -.087 .785 30 70 25.04 11268 -.087 .775 28 72 24.82 11171 -.086 .765 26 74 24.61 11074 -.086 .754 24 76 24.39 10977 -.085 .743 22 78 24.18 10880 -.085 .732 20 80 23.96 10782 -.084 .720 18 82 23.74 10685 -.084 .708 16 84 23.53 10588 -.083 .695 14 86 23.31 10491 -.082 .683 12 88 23.10 10394 -.082 .670 10 90 22.88 10296 -.081 .656 8 92 22.66 10199 -.081 .643 6 94 22.45 10102 -.080 .629 4 96 22.23 10005 -.080 .614 2 98 22.02 9908 -.079 .600 0 100 21.80 9810 -.078 .585 ______________________________________
TABLE VI ______________________________________ Magnetization and Temperature Coefficient of (Nd.sub.1-x Er.sub.x) Fe.sub.14 B Alloys Where x = 0 to 100% W % Nd.sub.2 Fe.sub.14 B+ X % Er.sub.2 Fe.sub.14 B COMPO- SITION M(25C) M(25C) ALPHA W X MB/FU GAUSS -50-200 R SQUARE ______________________________________ 100 0 32.60 14670 -.099 .967 98 2 32.30 14534 -.099 .965 96 4 32.00 14399 -.098 .963 94 6 31.70 14263 -.098 .961 92 8 31.39 14128 -.097 .958 90 10 31.09 13992 -.096 .956 88 12 30.79 13857 -.096 .953 86 14 30.49 13721 -.095 .950 84 16 30.19 13585 -.094 .947 82 18 29.89 13450 -.094 .943 80 20 29.59 13314 -.093 .940 78 22 29.29 13179 -.092 .936 76 24 28.98 13043 -.091 .932 74 26 28.68 12908 -.091 .927 72 28 28.38 12772 -.090 .923 70 30 28.08 12636 -.089 .918 68 32 27.78 12501 -.088 .912 66 34 27.48 12365 -.087 .906 64 36 27.18 12230 -.087 .900 62 38 26.88 12094 -.086 .893 60 40 26.57 11958 -.085 .886 58 42 26.27 11823 -.084 .879 56 44 25.97 11867 -.083 .871 54 46 25.67 11552 -.082 .862 52 48 25.37 11416 -.081 .853 50 50 25.07 11281 -.080 .843 48 52 24.77 11145 -.079 .832 46 54 24.47 11009 -.078 .821 44 56 24.16 10874 -.077 .809 42 58 23.86 10738 -.076 .796 40 60 23.56 10603 -.075 .782 38 62 23.26 10467 -.073 .767 36 64 22.96 10332 -.072 .751 34 66 22.66 10196 -.071 .735 32 68 22.36 10060 -.070 .717 30 70 22.06 9925 -.068 .698 28 72 21.75 9789 -.067 .678 26 74 21.45 9654 -.066 .656 24 76 21.15 9518 -.064 .634 22 78 20.85 9383 -.063 .610 20 80 20.55 9247 -.061 .585 18 82 20.25 9111 -.059 .559 16 84 19.95 8976 -.058 .531 14 86 19.64 8840 -.056 .502 12 88 19.34 8705 -.054 .473 10 90 19.04 8569 -.053 .442 8 92 18.74 8434 -.051 .410 6 94 18.44 8298 -.049 .378 4 96 18.14 8162 -.047 .345 2 98 17.84 8027 -.045 .312 0 100 17.54 7891 -.042 .280 ______________________________________
TABLE VII
______________________________________
Magnetization and Temperature Coefficient of
(Nd.sub.1-x Ho.sub.x).sub.2 Fe.sub.14 B Alloys Where x = 0
to 100%
W % Nd.sub.2 Fe.sub.14 B+ X % Ho.sub.2 FE.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X MB/FU GAUSS -50-200 R SQUARE
______________________________________
100 0 32.60 14670 -.099 .967
98 2 32.26 14518 -.098 .966
96 4 31.92 14366 -.097 .965
94 6 31.59 14213 -.096 .963
92 8 31.25 14061 -.095 .962
90 10 30.91 13909 -.094 .960
88 12 30.57 13757 -.093 .959
86 14 30.23 13604 -.092 .957
84 16 29.89 13452 -.091 .955
82 18 29.56 13300 -.089 .953
80 20 29.22 13148 -.088 .951
78 22 28.88 12996 -.087 .948
76 24 28.54 12843 -.085 .946
74 26 28.20 12691 -.084 .943
72 28 27.86 12539 -.083 .940
70 30 27.53 12387 -.081 .936
68 32 27.19 12235 -.080 .933
66 34 26.85 12082 -.078 .929
64 36 26.51 11930 -.077 .924
62 38 26.17 11778 -.075 .920
60 40 25.83 11626 -.073 .914
58 42 25.50 11473 -.072 .909
56 44 25.16 11321 -.070 .902
54 46 24.82 11169 -.068 .895
52 48 24.48 11017 -.066 .887
50 50 24.14 10865 -.064 .878
48 52 23.81 10712 -.062 .868
46 54 23.47 10560 -.060 .857
44 56 23.13 10408 -.058 .844
42 58 22.79 10256 -.056 .830
40 60 22.45 10103 -.054 .814
38 62 22.11 9951 -.051 .795
36 64 21.78 9799 -.049 .773
34 66 21.44 9647 -.047 .748
32 68 21.10 9495 -.044 .720
30 70 20.76 9342 -.041 .686
28 72 20.42 9190 -.038 .648
26 74 20.08 9038 -.036 .603
24 76 19.75 8886 -.033 .551
22 78 19.41 8734 -.029 .491
20 80 19.07 8581 -.026 .424
18 82 18.73 8429 -.023 .349
16 84 18.39 8277 -.019 .269
14 86 18.05 8125 -.016 .187
12 88 17.72 7972 -.012 .111
10 90 17.38 7820 -.008 .049
8 92 17.04 7668 -.003 .010
6 94 16.70 7516 .001 .001
4 96 16.36 7364 .006 .024
2 98 16.03 7211 .011 .075
0 100 15.69 7059 .016 .146
______________________________________
In Tables II through Tables VII it may be seen that complete replacement of the heavy rare earth element with Nd is not desirable as the resulting values are not within the required range. In addition, the values ar not improved by the addition of Nd except for the relatively narrow ranges of Nd in combination with Ho in accordance with the composition limits of the invention.
It was additionally determined from an analysis of the magnitization curve as a function of temperature that a combination of two or more heavy rare earth elements with neodynium-iron-boron may provide optimum properties in accordance with the invention.
TABLE VIII
______________________________________
Magnetization and Temperature Coefficient
of (NdDyHo).sub.2 Fe.sub.14 B Alloys
W % Dy.sub.2 F.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y % Ho.sub.2 FE.sub.14
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 14.04 6319 .004 .021
86 4 10 14.28 6428 .004 .021
76 4 20 14.53 6537 .004 .022
66 4 30 14.77 6646 .004 .022
56 4 40 15.01 6755 .005 .022
46 4 50 15.25 6863 .005 .023
36 4 60 15.49 6972 .005 .023
26 4 70 15.74 7081 .005 .023
16 4 80 15.98 7190 .005 .024
6 4 90 16.22 7298 .006 .024
94 6 0 14.43 6493 -.001 .003
84 6 10 14.67 6602 -.001 .002
74 6 20 14.91 6711 -.001 .001
64 6 30 15.15 6820 -.001 .000
54 6 40 15.40 6928 -.000 .000
44 6 50 15.64 7037 - .000 .000
34 6 60 15.88 7146 .000 .000
24 6 70 16.12 7255 .000 .000
14 6 80 16.36 7364 .001 .000
4 6 90 16.61 7472 .001 .001
92 8 0 14.82 6667 -.006 .060
82 8 10 15.06 6776 -.006 .050
72 8 20 15.30 6885 -.006 .041
62 8 30 15.54 6994 -.005 .034
52 8 40 15.78 7102 -.005 .028
42 8 50 16.02 7211 -.005 .023
32 8 60 16.27 7320 -.004 .019
22 8 70 16.51 7429 -.004 .015
12 8 80 16.75 7538 -.004 .013
2 8 90 16.99 7646 -.003 .010
90 10 0 15.20 6841 -.011 .164
80 10 10 15.44 6950 -.011 .143
70 10 20 15.69 7069 -.010 .125
60 10 30 15.93 7168 -.010 .109
50 10 40 16.17 7275 -.009 .095
40 10 50 16.41 7385 -.009 .083
30 10 60 16.65 7494 -.009 .073
20 10 70 17.14 7603 -.008 .064
10 10 80 17/14 7711 -.008 .056
0 10 90 17.38 7820 -.008 .049
88 12 0 15.59 7014 -.015 .283
78 12 10 15.83 7124 -.015 .254
68 12 20 16.07 7233 -.014 .228
58 12 30 16.31 7342 -.014 .205
48 12 30 16.56 7450 -.014 .184
38 12 50 16.80 7559 -.013 .166
28 12 60 17.04 7668 -.013 .149
18 12 70 17.28 7777 -.012 .134
8 12 80 17.52 7885 -.012 .121
86 14 0 15.98 7189 -.020 .395
76 14 10 16.22 7298 -.019 .363
66 14 20 16.46 7407 -.019 .333
56 14 30 16.70 7516 -.018 .305
46 14 40 16.94 7624 -.018 .280
36 14 50 17.18 7733 -.017 .256
26 14 60 17.43 7842 -.017 .235
16 14 70 17.67 7951 -.016 .215
6 14 80 17.91 8059 -.016 .197
84 16 0 16.36 7363 -.023 .491
74 16 10 16.60 7472 -.023 .459
64 16 20 16.85 7581 -.022 .428
54 16 30 17.09 7690 -.022 .399
44 16 40 17.33 7798 -.021 .371
34 16 50 17.57 7907 -.021 .345
24 16 60 17.81 8016 -.020 .321
14 16 70 18.05 8125 -.020 .298
4 16 80 18.30 8233 -.019 .277
82 18 0 16.75 7537 -.027 .570
72 18 10 16.99 7646 -.027 .539
62 18 20 17.23 7755 -.026 .509
52 18 30 17.47 7864 -.025 .480
42 18 40 17.72 7972 -.025 .453
32 18 50 17.96 8081 -.024 .426
22 18 60 18.20 8190 -.024 .401
12 18 70 18.44 8299 -.023 .376
2 18 80 18.68 8407 -.023 .354
80 20 0 17.14 7711 -.031 .634
70 20 10 17.38 7820 -.030 .606
60 20 20 17.62 7929 -.029 .578
50 20 30 17.86 8146 -.029 .550
40 20 40 18.10 8146 -.028 .523
30 20 50 18.34 8255 -.028 .497
20 20 60 18.59 8364 -.027 .472
10 20 70 18.83 8473 -.027 .447
0 20 80 19.07 8581 -.026 .424
______________________________________
As shown from Table VIII, by adding Nd to a combination of Ho and Dy in an iron-boron alloy both the alpha and Ms are achieved in combination only when Nd is within the range of 8 to 11%, Ho in the range of 75 to 92%, and Dy in the range of 0 to 15%.
TABLE IX
______________________________________
Magnetization and Temperature Coefficient
of (NdDyTm) Alloys
W % Dy.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Tm.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 14.04 6319 .004 .021
86 4 10 14.90 6703 -.010 .089
76 4 20 15.75 7087 -.022 .259
66 4 30 16.60 7471 -.033 .377
56 4 40 17.46 7855 -.042 .454
46 4 50 18.31 8239 -.050 .505
36 4 60 19.16 8623 -.058 .542
26 4 70 20.01 9007 -.065 .569
16 4 80 20.87 9391 -.071 .590
6 4 90 21.72 9774 -.076 .606
94 6 0 14.43 6493 -.001 .003
84 6 10 15.28 6877 -.014 .176
74 6 20 16.14 7261 -.026 .335
64 6 30 16.99 7645 -.036 .434
54 6 40 17.84 8029 -.045 .497
44 6 50 18.70 8413 -.053 .540
34 6 60 19.55 8797 -.060 .570
24 6 70 20.40 9181 -.067 .593
14 6 80 21.25 9565 -.073 .610
4 6 90 22.11 9948 -.078 .624
92 8 0 14.82 6667 -.006 .060
82 8 10 15.67 7051 -.019 .270
72 8 20 16.52 7435 -.030 .405
62 8 30 17.38 7819 -.039 .486
52 8 40 18.23 8203 -.048 .536
42 8 50 19.08 8587 -.055 .571
32 8 60 19.94 8971 -.062 .596
22 8 70 20.79 9355 -.069 .615
12 8 80 21.64 9739 -.074 .629
2 8 90 22.49 10122 -.080 .640
90 10 0 15.20 6841 -.011 .164
80 10 10 16.06 7225 -.023 .360
70 10 20 16.91 7609 -.033 .469
60 10 30 17.76 7993 -.042 .532
50 10 40 18.62 8377 -.050 .572
40 10 50 19.47 8761 -.058 .600
30 10 60 20.32 9145 -.065 .620
20 10 70 21.17 9529 -.071 .635
10 10 80 22.03 9913 -.076 .647
0 10 90 22.88 10296 -.081 .656
88 12 0 15.59 7015 -.015 .283
78 12 10 16.44 7399 -.027 .442
68 12 20 17.30 7783 -.036 .525
58 12 30 18.15 8167 -.045 .573
48 12 40 19.00 8551 -.053 .605
38 12 50 19.86 8935 -.060 .626
28 12 60 20.71 9319 -.067 .642
18 12 70 21.56 9703 -.073 .654
8 12 80 22.41 10086 -.078 .663
86 14 0 15.98 7189 -.020 .395
76 14 10 16.83 7573 -.030 .513
66 14 20 17.68 7957 -.040 .574
56 14 30 18.54 8341 -.048 .610
46 14 40 19.39 8725 -.056 .634
36 14 50 20.24 9109 -.062 .650
26 14 60 21.09 9493 -.069 .662
16 14 70 21.95 9877 -.074 .672
6 14 80 22.80 10260 -.080 .679
84 16 0 16.36 7363 -.023 .491
74 16 10 17.22 7747 -.034 .574
64 16 20 18.07 8131 -.043 .617
54 16 30 18.92 8515 -.051 .643
44 16 40 19.78 8899 -.058 .660
34 16 50 20.63 9283 -.065 .672
24 16 60 21.48 9667 -.071 .681
14 16 70 22.33 10051 -.076 .688
4 16 80 23.19 10434 -.081 .693
82 18 0 16.75 7537 -.027 .570
72 18 10 17.60 7921 -.037 .625
62 18 20 18.46 8305 -.045 .654
52 18 20 18.46 8689 -.053 .672
42 18 40 20.16 9073 -.060 .684
32 18 50 21.01 9457 -.067 .692
22 18 60 21.87 9841 -.072 .698
12 18 70 22.72 10224 -.078 .703
2 18 80 23.57 10608 -.083 .707
80 20 0 17.14 7711 -.031 .634
70 20 10 17.99 8095 -.040 .668
60 20 20 18.84 8479 -.048 .687
50 20 30 19.70 8863 -.056 .698
40 20 40 20.55 9247 -.062 .705
30 20 50 21.40 9631 -.069 .710
20 20 60 22.25 10015 -.074 .714
10 20 70 23.11 10398 -.079 .717
0 20 80 23.96 10782 -.084 .720
______________________________________
As may be seen from the data presented in Table IX where the Nd is alloyed with Dy and Tm within the cited ranges none of the alloys meet the desired combination of properties.
TABLE X
______________________________________
Magnetization and Temperature Coefficient
of (NdDyTb).sub.2 Fe.sub.14 B Alloys
W % Dy.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Tb.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 14.04 6319 .004 .021
86 4 10 14.04 6319 -.002 .004
76 4 20 14.04 6319 -.000 .000
66 4 30 14.04 6319 -.003 .013
56 4 40 14.04 6319 -.005 .044
46 4 50 14.04 6319 -.007 .097
36 4 60 14.04 6319 -.009 .168
26 4 70 14.04 6319 -.011 .254
16 4 80 14.04 6319 -.013 .349
6 4 90 14.04 6319 -.015 .445
94 6 0 14.43 6493 -.001 .003
84 6 10 14.43 6493 -.004 .020
74 6 20 14.43 6493 -.006 .053
64 6 30 14.43 6493 -.008 .102
54 6 40 14.43 6493 -.010 .167
44 6 50 14.43 6493 -.012 .244
34 6 60 14.43 6493 -.014 .328
24 6 70 14.43 6493 -.016 .416
14 6 80 14.43 6493 -.018 .501
4 6 90 14.43 6493 -.020 .581
92 88 0 14.82 6667 -.006 .060
82 8 10 14.82 6667 -.008 .106
72 8 20 14.82 6667 -.010 .165
62 8 30 14.82 6667 -.012 .235
52 8 40 14.82 6667 -.014 .311
42 8 50 14.82 6667 -.016 .390
32 8 60 14.82 6667 -.018 .469
22 8 70 14.82 6667 -.020 .545
12 8 80 14.82 6667 -.022 .614
2 8 90 14.82 6667 -.024 .677
90 10 0 15.20 6841 -.011 .164
80 10 10 15.20 6841 -.013 .227
70 10 20 15.20 6841 -.015 .296
60 10 30 15.20 6841 -.017 .368
50 10 40 15.20 6841 -.019 .441
40 10 50 15.20 6841 -.021 .512
30 10 60 15.20 6841 -.022 .579
20 10 70 15.20 6841 -.024 .640
10 10 80 15.20 6841 -.026 .696
0 10 90 15.20 6841 -.028 .744
88 12 0 15.59 7015 -.015 .283
78 12 10 15.59 7015 -.017 .349
68 12 20 15.59 7015 -.019 .416
58 12 30 15.59 7015 -.021 .483
48 12 40 15.59 7015 -.023 .546
38 12 50 15.59 7015 -.025 .606
28 12 60 15.59 7015 -.026 .661
18 12 70 15.59 7015 -.028 .710
8 12 80 15.59 7015 -.030 .754
86 14 0 15.98 7189 -.020 .395
76 14 10 15.98 7189 -.021 .457
66 14 20 15.98 7189 -.023 .517
56 14 30 15.98 7189 -.025 .575
46 14 40 15.98 7189 -.027 .628
36 14 50 15.98 7189 -.028 .677
26 14 60 15.98 7189 -.030 .722
16 14 70 15.98 7189 -.032 .762
6 14 80 15.98 7189 -.034 .797
84 16 0 16.36 7363 -.023 .491
74 16 10 16.36 7363 -.025 .546
64 16 20 16.36 7363 -.027 .598
54 16 30 16.36 7363 -.029 .647
44 16 40 16.36 7363 -.030 .691
34 16 50 16.36 7363 -.032 .732
24 16 60 16.36 7363 -.034 .768
14 16 70 16.36 7363 -.036 .800
4 16 80 16.36 7363 .037 .829
82 18 0 16.75 7537 -.027 .570
72 18 10 16.75 7537 -.029 .618
62 18 20 16.75 7537 -.031 .662
52 18 20 16.75 7537 -.032 .703
42 18 40 16.75 7537 -.034 .740
32 18 50 16.75 7537 -.036 .773
22 18 60 16.75 7537 -.037 .803
12 18 70 16.75 7537 -.039 .830
2 18 80 16.75 7537 -.041 .854
80 20 0 17.14 7711 -.031 .634
70 20 10 17.14 7711 -.032 .675
60 20 20 17.14 7711 -.034 .712
50 20 30 17.14 7711 -.036 .746
40 20 40 17.14 7711 -.037 .777
30 20 50 17.14 7711 -.039 .805
20 20 60 17.14 7711 -.041 .831
10 20 70 17.14 7711 -.042 .853
0 20 80 17.14 7711 -.044 .873
______________________________________
This is also the case with respect to Table X wherein Nd is alloyed with Tb and Dy.
TABLE XI
______________________________________
Magnetization and Temperature Coefficient
of (NdDyGd).sub.2 Fe.sub.14 B Alloys
W % Dy.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Gd.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 14.04 6319 .004 .021
86 4 10 14.37 6468 -.004 .026
76 4 20 14.70 6616 -.012 .177
66 4 30 15.03 6764 -.019 .365
56 4 40 15.36 6912 -.025 .523
46 4 50 15.69 7061 -.032 .639
36 4 60 16.02 7209 -.038 .721
26 4 70 16.35 7357 -.043 .779
16 4 80 16.68 7505 -.049 .821
6 4 90 17.01 7654 -.054 .852
94 6 0 14.43 6493 -.001 .003
84 6 10 14.76 6642 -.009 .113
74 6 20 15.09 6790 -.016 .299
64 6 30 15.42 6938 -.023 .470
54 6 40 15.75 7086 -.029 .600
44 6 50 16.08 7235 -.035 .693
34 6 60 16.41 7383 -.041 .759
24 6 70 16.74 7531 -.046 .806
14 6 80 17.07 7679 -.052 .841
4 6 90 17.39 7827 -.057 .867
92 8 0 14.82 6667 -.006 .060
82 8 10 15.15 6816 -.014 .231
72 8 20 15.48 6964 -.020 .412
62 8 30 15.80 7112 -.027 .557
52 8 40 14.82 7260 -.033 .662
42 8 50 16.13 7409 -.039 .736
32 8 60 16.46 7557 -.044 .789
22 8 70 16.79 7705 -.049 .828
12 8 80 17.12 7853 -.054 .857
2 8 90 17.45 8001 -.059 .879
90 10 0 17.78 6841 -.011 .164
80 10 10 15.20 6990 -.018 .349
70 10 20 15.53 7138 -.024 .508
60 10 30 15.86 7286 -.031 .626
50 10 40 16.19 7434 -.036 .710
40 10 50 16.52 7583 -.042 .771
30 10 60 16.85 7731 -.047 .814
20 10 70 17.18 7879 -.052 .847
10 10 80 17.51 8027 -.057 .871
0 10 90 17.84 8175 -.062 .890
88 12 0 18.17 7015 -.015 .283
78 12 10 15.59 7164 -.022 .454
68 12 20 15.92 7312 -.028 .586
58 12 30 16.25 7460 -.034 .681
48 12 40 16.58 7608 -.040 .749
38 12 50 16.91 7756 -.045 .799
28 12 60 17.24 7905 -.050 .835
18 12 70 17.57 8053 -.055 .862
8 12 80 17.90 8201 -.060 .883
86 14 0 18.22 7189 -.020 .395
76 14 10 15.98 7338 -.026 .541
66 14 20 16.31 7486 -.032 .649
56 14 30 16.64 7634 -.037 .726
46 14 40 16.96 7782 -.043 .781
36 14 50 17.29 7930 -.048 .822
26 14 60 17.95 8079 -.053 .852
16 14 70 18.28 8227 -.058 .875
6 14 80 18.61 8375 -.062 .893
84 16 0 16.36 7363 -.023 .491
74 16 10 16.69 7511 -.029 .612
64 16 20 17.02 7660 -.035 .699
54 16 30 17.35 7808 -.041 .761
44 16 40 17.68 7956 -.046 .807
34 16 50 18.01 8104 -.051 .841
24 16 60 18.34 8253 -.056 .866
14 16 70 18.67 8401 -.060 .886
4 16 80 19.00 8549 -.064 .901
82 18 0 16.75 7537 -.027 .570
72 18 10 17.08 7685 -.033 .668
62 18 20 17.41 7834 -.038 .739
52 18 20 17.74 7982 -.044 .790
42 18 40 18.07 8130 -.049 .828
32 18 50 18.40 8278 -.054 .856
22 18 60 18.73 8427 -.058 .878
12 18 70 19.06 8575 -.062 .895
2 18 80 19.38 8723 -.067 .909
80 20 0 17.14 7711 -.031 .634
70 20 10 17.47 7859 -.036 .714
60 20 20 17.79 8008 -.042 .772
50 20 30 18.12 8156 -.047 .814
40 20 40 18.45 8304 -.051 .846
30 20 50 18.78 8452 -.056 .870
20 20 60 19.11 8601 -.060 .889
10 20 70 19.44 8749 -.065 .903
0 20 80 19.77 8897 -.069 .915
______________________________________
The Table XI the alloy compositions embodying Dy and Gd with neodynium do not provide alloys that meet the desired combination of properties.
TABLE XII
______________________________________
Magnetization and Temperature Coefficient
of (NdHoTm).sub.2 Fe.sub.14 B Alloys
W % Ho.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Tm.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 16.36 7364 .006 .024
86 4 10 16.97 7639 -.007 .029
76 4 20 17.59 7914 -.018 .150
66 4 30 18.20 8189 -.029 .274
56 4 40 18.81 8464 -.038 .371
46 4 50 19.42 8739 -.047 .445
36 4 60 20.03 9014 -.055 .500
26 4 70 20.64 9289 -.062 .542
16 4 80 21.25 9565 -.069 .575
6 4 90 21.87 9840 -.076 .601
94 6 0 16.70 7516 -.001 .001
84 6 10 17.31 7791 -.011 .074
74 6 20 17.92 8066 -.022 .211
64 6 30 18.54 8341 -.032 .329
54 6 40 19.15 8616 -.041 .417
44 6 50 19.76 8891 -.050 .482
34 6 60 20.37 9167 -.057 .531
24 6 70 20.98 9442 -.065 .568
14 6 80 21.59 9717 -.071 .597
4 6 90 22.20 9992 -.078 .621
92 8 0 17.04 7668 -.003 .010
82 8 10 17.65 7943 -.015 .133
72 8 20 18.26 8218 -.025 .274
62 8 30 18.87 8493 -.035 .382
52 8 40 19.49 8769 -.044 .460
42 8 50 20.10 9044 -.052 .518
32 8 60 20.71 9319 -.060 .560
22 8 70 21.32 9594 -.067 .593
12 8 80 21.93 9869 -.073 .618
2 8 90 22.54 10144 -.080 .639
90 10 0 17.38 7820 -.008 .049
80 10 10 17.99 8095 -.019 .201
70 10 20 18.60 8370 -.029 .335
60 10 30 19.21 8646 -.038 .432
50 10 40 19.82 8921 -.047 .501
40 10 50 20.44 9196 -.055 .550
30 10 60 21.05 9471 -.062 .587
20 10 70 21.66 9746 -.069 .616
10 10 80 22.27 10021 -.075 .638
0 10 90 22.88 10296 -.081 .656
88 12 0 17.72 7972 -.012 .111
78 12 10 18.33 8248 -.022 .272
68 12 20 18.94 8523 -.032 .394
58 12 30 19.55 8798 -.041 .478
48 12 40 20.16 9073 -.049 .538
38 12 50 20.77 9348 -.057 .580
28 12 60 21.38 9623 -.064 .612
18 12 70 22.00 9898 -.071 .637
8 12 80 22.61 10173 -.077 .657
86 14 0 18.05 8125 -.016 .187
76 14 10 18.67 8400 -.026 .342
66 14 20 19.28 8675 -.035 .449
56 14 30 18.89 8950 -.044 .521
46 14 40 20.50 9225 -.052 .572
36 14 50 21.11 9500 -.059 .608
26 14 60 21.72 9775 -.066 .636
16 14 70 22.33 10051 -.073 .657
6 14 80 22.95 10326 -.079 .674
84 16 0 18.39 8277 -.019 .269
74 16 10 19.00 8552 -.029 .408
64 16 20 19.62 8827 -.038 .499
54 16 30 20.23 9102 -.047 .560
44 16 40 20.84 9377 -.054 .603
34 16 50 21.45 9653 -.062 .634
24 16 60 22.06 9928 - .069 .658
14 16 70 22.67 10203 -.075 .676
4 16 80 23.28 10478 -.081 .690
82 18 0 18.73 8429 -.023 .349
72 18 10 19.34 8704 -.032 .469
62 18 20 19.95 8979 -.041 .545
52 18 20 20.57 9254 -.049 .596
42 18 40 21.18 9530 -.057 .632
32 18 50 21.79 9805 -.064 .658
22 18 60 22.40 10080 -.071 .678
12 18 70 23.01 10355 -.077 .693
2 18 80 23.62 10630 -.082 .706
80 20 0 19.07 8581 -.026 .424
70 20 10 19.68 8856 -.035 .523
60 20 20 20.29 9132 -.044 .586
50 20 30 20.90 9407 -.052 .628
40 20 40 21.52 9682 -.059 .658
30 20 50 22.13 9957 -.066 .680
20 20 60 22.74 10232 -.072 .696
10 20 70 23.35 10507 -.078 .709
0 20 80 23.96 10782 -.084 .720
______________________________________
As can be seen from the data presented in Table XII with neodynium within the range of 4 to 10%, Tm can be varied from 0 to 13% in combination with Nd and Ho within the range of 83 to 96% to achieve the desired combination of properties.
TABLE XIII
______________________________________
Magnetization and Temperature Coefficient
of (NdHoEr).sub.2 Fe.sub.14 B Alloys
W % Ho.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Er.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 16.36 7364 .006 .024
86 4 10 16.55 7447 -.001 .000
76 4 20 16.73 7530 -.007 .024
66 4 30 16.92 7613 -.012 .070
56 4 40 17.10 8305 -.018 .122
46 4 50 17.29 7780 -.024 .173
36 4 60 17.47 7863 -.029 .220
26 4 70 17.66 7946 -.034 .261
16 4 80 17.84 8029 -.039 .297
6 4 90 18.03 8112 -.044 .328
94 6 0 16.70 7516 .001 .001
84 6 10 16.89 7599 -.005 .017
74 6 20 17.07 7682 -.011 .064
64 6 30 17.26 7765 -.016 .120
54 6 40 17.44 7849 -.022 .176
44 6 50 17.63 7932 -.027 .226
34 6 60 17.81 8015 -.032 .269
24 6 70 18.00 8098 -.037 .307
14 6 80 18.18 8181 -.042 .340
4 6 90 18.37 8265 -.047 .368
92 8 0 17.04 7668 -.003 .010
82 8 10 17.22 7751 -.009 .057
72 8 20 17.41 7834 -.015 .118
62 8 30 17.59 7918 -.020 .178
52 8 40 17.78 8001 -.026 .232
42 8 50 17.96 8084 -.031 .279
32 8 60 18.15 8167 -.036 .318
22 8 70 18.33 8250 -.041 .352
12 8 80 18.52 8334 -.045 .381
2 8 90 18.70 8417 -.050 .406
90 10 0 17.38 7820 -.008 .049
80 10 10 17.56 7903 -.013 .115
70 10 20 17.75 7987 -.019 .181
60 10 30 17.93 8070 -.024 .240
50 10 40 18.12 8153 -.029 .289
40 10 50 18.30 8236 -.034 .331
30 10 60 18.49 8319 -.039 .366
20 10 70 18.67 8403 -.044 .396
10 10 80 18.86 8486 -.048 .421
0 10 90 19.04 8569 -.053 .442
88 12 0 17.72 7972 -.012 .111
78 12 10 17.90 8056 -.017 .184
68 12 20 18.09 8139 -.022 .248
58 12 30 18.27 8222 -.027 .302
48 12 40 18.46 8305 -.032 .345
38 12 50 18.64 8388 -.037 .382
28 12 60 18.83 8472 -.042 .412
18 12 70 19.01 8555 -.046 .437
8 12 80 19.20 8638 -.051 .458
86 14 0 18.05 8125 -.016 .187
76 14 10 18.24 8208 -.021 .258
66 14 20 18.42 8291 -.026 .315
56 14 30 18.61 8374 -.031 .362
46 14 40 18.79 8457 -.036 .399
36 14 50 18.98 8541 -.040 .429
26 14 60 19.16 8624 -.045 .454
16 14 70 19.35 8707 -.049 .475
6 14 80 19.53 8790 -.054 .493
84 16 0 18.39 8277 -.019 .269
74 16 10 18.58 8360 -.024 .331
64 16 20 18.76 8443 -.029 .380
54 16 30 18.95 8527 -.034 .418
44 16 40 19.13 8610 -.039 .449
34 16 50 19.32 8693 -.043 .474
24 16 60 19.50 8776 -.048 .494
14 16 70 19.69 8859 -.052 .511
4 16 80 19.87 8943 -.056 .526
82 18 0 18.73 8429 -.023 .349
72 18 10 18.92 8512 -.028 .401
62 18 20 19.10 8596 -.032 .440
52 18 20 19.29 8679 -.037 .471
42 18 40 19.47 8762 -.042 .495
32 18 50 19.66 8845 -.046 .515
22 18 60 19.84 8928 -.050 .531
12 18 70 20.03 9012 -.055 .545
2 18 80 20.21 9095 -.059 .557
80 20 0 19.07 8581 -.026 .424
70 20 10 19.25 8665 -.031 .464
60 20 20 19.44 8748 -.036 .495
50 20 30 19.62 8831 -.040 .519
40 20 40 19.81 8914 -.045 .538
30 20 50 19.99 8997 -.049 .553
20 20 60 20.18 9081 -.053 .565
10 20 70 20.36 9164 -.057 .576
0 20 80 20.55 9247 -.061 .585
______________________________________
As may be seen from the data presented in this Table, if Nd varies from 5 to 11%, Er from 0 and Ho from 76 to 94%, the alloys meet the desired combination of properties.
TABLE XIV
______________________________________
Magnetization and Temperature Coefficient
of (NdHoTb).sub.2 Fe.sub.14 B Alloys
W % Ho.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Tb.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 16.36 7364 .006 .024
86 4 10 16.12 7255 .004 .011
76 4 20 15.88 7146 .002 .002
66 4 30 15.64 7037 -.001 .000
56 4 40 15.40 6929 -.003 .010
46 4 50 15.16 6820 -.005 .037
36 4 60 14.91 6711 -.007 .087
26 4 70 14.67 6602 -.010 .167
16 4 80 14.43 6493 -.012 .278
6 4 90 14.19 6385 -.015 .414
94 6 0 16.70 7516 .001 .001
84 6 10 16.46 7407 -.001 .001
74 6 20 16.22 7298 -.003 .010
64 6 30 15.98 7190 -.005 .031
54 6 40 15.73 7081 -.008 .069
44 6 50 15.49 6972 - .010 .128
34 6 60 15.25 6863 -.012 .209
24 6 70 15.01 6754 -.014 .314
14 6 80 14.77 6646 -.017 .435
4 6 90 14.53 6537 -.019 .561
92 8 0 17.04 7668 -.003 .010
82 8 10 16.80 7559 -.005 .027
72 8 20 16.56 7450 -.008 .057
62 8 30 16.31 7342 -.010 .102
52 8 40 16.07 7233 -.012 .164
42 8 50 15.83 7124 -.014 .244
32 8 60 15.59 7015 -.017 .341
22 8 70 15.35 6907 -.019 .449
12 8 80 15.11 6798 -.021 .561
2 8 90 14.86 6689 -.024 .668
90 10 0 17.38 7820 -.008 .049
80 10 10 17.14 7711 -.010 .084
70 10 20 16.89 7603 -.012 .133
60 10 30 16.65 7494 -.014 .196
50 10 40 16.41 7385 -.016 .273
40 10 50 16.17 7276 -.018 .363
30 10 60 15.93 7168 -.021 .460
20 10 70 15.69 7059 -.023 .560
10 10 80 15.44 6950 -.026 .657
0 10 90 15.20 6841 -.028 .744
88 12 0 17.72 7972 -.012 .111
78 12 10 17.47 8056 -.014 .162
68 12 20 17.23 7755 -.016 .224
58 12 30 16.99 7646 -.018 .297
48 12 40 16.75 7537 -.020 .380
38 12 50 16.51 7429 -.022 .468
28 12 60 16.27 7320 -.025 .559
18 12 70 16.02 7211 -.027 .647
8 12 80 15.78 7102 -.030 .728
86 14 0 18.05 8125 -.016 .187
76 14 10 17.81 8016 -.018 .248
66 14 20 17.57 7907 -.020 .317
56 14 30 17.33 7798 -.022 .394
46 14 40 17.09 7690 -.024 .475
36 14 50 16.85 7581 -.026 .558
26 14 60 16.60 7472 -.029 .638
16 14 70 16.36 7363 -.031 .713
6 14 80 16.12 7255 -.033 .780
84 16 0 18.39 8277 -.019 .269
74 16 10 18.15 8168 -.021 .334
64 16 20 17.91 8059 -.023 .406
54 16 30 17.67 7951 -.026 .480
44 16 40 17.43 7842 -.028 .556
34 16 50 17.18 7733 -.030 .630
24 16 60 16.94 7624 -.032 .700
14 16 70 16.70 7516 -.035 .764
4 16 80 16.46 7407 -.037 .820
82 18 0 18.73 8429 -.023 .349
72 18 10 18.49 8320 -.025 .416
62 18 20 18.25 8212 -.027 .485
52 18 20 18.01 8103 -.029 .555
42 18 40 17.76 7994 -.031 .623
32 18 50 17.52 7885 -.033 .689
22 18 60 17.28 7777 -.036 .749
12 18 70 17.04 7668 -.038 .803
2 18 80 16.80 7559 -.040 .850
80 20 0 19.07 8581 -.026 .424
70 20 10 18.83 8473 -.028 .488
60 20 20 18.59 8364 -.030 .553
50 20 30 18.34 8255 -.032 .617
40 20 40 18.10 8146 -.035 .679
30 20 50 17.86 8037 -.037 .736
20 20 60 17.62 7929 -.039 .787
10 20 70 17.38 7820 -.041 .833
0 20 80 17.14 7711 -.044 .873
______________________________________
Table XIV shows that with Nd within the range of 7 to 11% the properties are obtained if Ho is maintained within the range of 78 to 90% and Tb varies 9 to 12%.
TABLE XV
______________________________________
Magnetization and Temperature Coefficient
of (NdHoDy).sub.2 Fe.sub.14 B Alloys
W % Ho.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Dy.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 16.36 7364 .006 .024
86 4 10 16.12 7255 .005 .024
76 4 20 15.88 7146 .005 .024
66 4 30 15.64 7037 -.005 .023
56 4 40 15.40 6929 -.005 .023
46 4 50 15.16 6820 -.005 .023
36 4 60 14.91 6711 -.005 .022
26 4 70 14.67 6602 -.004 .022
16 4 80 14.43 6493 -.004 .021
6 4 90 14.19 6385 -.004 .021
94 6 0 16.70 7516 .001 .001
84 6 10 16.46 7407 -.001 .001
74 6 20 16.22 7298 -.001 .000
64 6 30 15.98 7190 -.000 .000
54 6 40 15.73 7081 -.000 .000
44 6 50 15.49 6972 -.000 .000
34 6 60 15.25 6863 -.000 .000
24 6 70 15.01 6754 -.001 .001
14 6 80 14.77 6646 -.001 .001
4 6 90 14.53 6537 -.001 .003
92 8 0 17.04 7668 -.003 .010
82 8 10 16.80 7559 -.004 .012
72 8 20 16.56 7450 -.004 .018
62 8 30 16.31 7342 -.004 .022
52 8 40 16.07 7233 -.005 .027
42 8 50 15.83 7124 -.005 .033
32 8 60 15.59 7015 -.005 .039
22 8 70 15.35 6907 -.006 .048
12 8 80 15.11 6798 -.006 .058
2 8 90 14.86 6689 -.006 .049
90 10 0 17.38 7820 -.008 .056
80 10 10 17.14 7711 -.008 .064
70 10 20 16.89 7603 -.008 .073
60 10 30 16.65 7494 -.009 .083
50 10 40 16.41 7385 -.009 .095
40 10 50 16.17 7276 -.009 .109
30 10 60 15.93 7168 -.010 .125
20 10 70 15.69 7059 -.010 .143
10 10 80 15.44 6950 -.011 .164
0 10 90 15.20 6841 -.011 .111
88 12 0 17.72 7972 -.012 .123
78 12 10 17.47 7864 -.012 .137
68 12 20 17.23 7755 -.012 .152
58 12 30 16.99 7646 -.013 .169
48 12 40 16.75 7537 -.013 .188
38 12 50 16.51 7429 -.014 .210
28 12 60 16.27 7320 -.014 .233
18 12 70 16.02 7211 -.015 .260
8 12 80 15.78 7102 -.015 .187
86 14 0 18.05 8125 -.016 .204
76 14 10 17.81 8016 -.016 .223
66 14 20 17.57 7907 -.016 .243
56 14 30 17.33 7798 -.017 .266
46 14 40 17.09 7690 -.017 .475
36 14 50 16.85 7581 -.018 .290
26 14 60 16.60 7472 -.018 .316
16 14 70 16.36 7363 -.019 .344
6 14 80 16.12 7255 -.019 .375
84 16 0 18.39 8277 -.019 .269
74 16 10 18.15 8168 -.020 .289
64 16 20 17.91 8059 -.020 .312
54 16 30 17.67 7951 -.021 .335
44 16 40 17.43 7842 -.021 .360
34 16 50 17.18 7733 -.022 .387
24 16 60 16.94 7624 -.022 .416
14 16 70 16.70 7516 -.023 .446
4 16 80 16.46 7407 -.023 .478
82 18 0 18.73 8429 -.023 .349
72 18 10 18.49 8320 -.023 .372
62 18 20 18.25 8212 -.024 .396
52 18 20 18.01 8103 -.024 .421
42 18 40 17.76 7994 -.025 .447
32 18 50 17.52 7885 -.025 .475
22 18 60 17.28 7777 -.026 .504
12 18 70 17.04 7668 -.026 .533
2 18 80 16.80 7559 -.027 .564
80 20 0 19.07 8581 -.026 .424
70 20 10 18.83 8473 -.027 .447
60 20 20 18.59 8364 -.027 .472
50 20 30 18.34 8255 -.028 .497
B0 20 40 18.10 8146 -.028 .523
30 20 50 17.86 8037 -.029 .550
20 20 60 17.62 7929 -.029 .578
10 20 70 17.38 7820 -.030 .606
0 20 80 17.14 7711 -.031 .634
______________________________________
In Table XV the desired combination of properties are achieved with alloys containing the addition of 7 to 11%, Ho 75 to 90%, and Dy within the range of 0 to 15%.
TABLE XVI
______________________________________
Magnetization and Temperature Coefficient
of (NdHoGd).sub.2 Fe.sub.14 B Alloys
W % Ho.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Gd.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y MB/FU GAUSS -50-200 R SQUARE
______________________________________
96 4 0 16.36 7364 .006 .024
86 4 10 16.45 7403 -.002 .002
76 4 20 16.54 7443 -.009 .064
66 4 30 16.63 7482 -.015 .196
56 4 40 16.71 7521 -.022 .356
46 4 50 16.80 7561 -.029 .507
36 4 60 16.89 7600 -.035 .630
26 4 70 16.98 7640 -.041 .723
16 4 80 17.07 7679 -.047 .793
6 4 90 17.15 7719 -.053 .843
94 6 0 16.70 7516 .001 .001
84 6 10 16.79 7555 -.006 .030
74 6 20 16.88 7595 -.013 .137
64 6 30 16.96 7634 -.019 .288
54 6 40 17.05 7674 -.026 .442
44 6 50 17.14 7713 -.032 .576
34 6 60 17.23 7753 -.038 .681
24 6 70 17.32 7792 -.045 .760
14 6 80 17.40 7832 -.050 .819
4 6 90 17.49 7871 -.056 .861
92 8 0 17.04 7668 -.003 .010
82 8 10 17.13 7707 -.010 .087
72 8 20 17.22 7747 -.017 .222
62 8 30 17.30 7786 -.023 .376
52 8 40 17.39 7826 -.030 .518
42 8 50 17.48 7865 -.036 .634
32 8 60 17.57 7905 -.042 .724
22 8 70 17.65 7944 -.048 .791
12 8 80 17.74 7984 -.053 .840
2 8 90 17.83 8023 -.059 .877
90 10 0 17.38 7820 -.008 .049
80 10 10 17.47 7860 -.014 .163
70 10 20 17.55 7899 -.021 .310
60 10 30 17.64 7939 -.027 .457
50 10 40 17.73 7978 -.033 .583
40 10 50 17.82 8018 -.039 .683
30 10 60 17.90 8057 -.045 .759
20 10 70 17.99 8096 -.051 .816
10 10 80 18.08 8136 -.056 .858
0 10 90 18.17 8175 -.062 .890
88 12 0 17.72 7972 -.012 .111
78 12 10 17.80 8012 -.018 .247
68 12 20 17.89 8051 -.024 .394
58 12 30 17.98 8091 -.030 .528
48 12 40 18.07 8130 -.036 .638
38 12 50 18.16 8170 -.042 .724
28 12 60 18.24 8209 -.048 .788
18 12 70 18.33 8249 -.053 .837
8 12 80 18.42 8288 -.059 .873
86 14 0 18.05 8125 -.016 .187
76 14 10 18.14 8164 -.022 .331
66 14 20 18.23 8204 -.028 .470
56 14 30 18.32 8243 -.034 .589
46 14 40 18.41 8283 -.040 .684
36 14 50 18.49 8322 -.045 .758
26 14 60 18.58 8361 -.051 .813
16 14 70 18.67 8401 -.056 .855
6 14 80 18.76 8440 -.062 .886
84 16 0 18.39 8277 -.019 .269
74 16 10 18.48 8316 -.025 .410
64 16 20 18.57 8356 -.031 .537
54 16 30 18.66 8395 -.037 .641
44 16 40 18.74 8435 -.043 .723
34 16 50 18.83 8474 -.048 .786
24 16 60 18.92 8514 -.054 .834
14 16 70 19.01 8553 -.059 .870
4 16 80 19.09 8593 -.064 .897
82 18 0 18.73 8429 -.023 .349
72 18 10 18.82 8469 -.029 .481
62 18 20 18.91 8508 -.034 .594
52 18 30 18.99 8547 -.040 .685
42 18 40 19.08 8587 -.045 .756
32 18 50 19.17 8626 -.051 .810
22 18 60 19.26 8666 -.056 .851
12 18 70 19.35 8705 -.061 .883
2 18 80 19.43 8745 -.066 .907
80 20 0 19.07 8581 -.026 .424
70 20 10 19.16 8621 -.032 .544
60 20 20 19.25 8660 -.037 .644
50 20 30 19.33 8700 -.043 .723
40 20 40 19.42 8739 -.048 .784
30 20 50 19.51 8779 -.054 .830
20 20 60 19.60 8818 -.059 .866
10 20 70 19.68 8858 -.064 .894
0 20 80 19.77 8897 -.069 .915
______________________________________
Table XVI shows that the desired combination of properties may be achieved with 7 to 11% Nd, 82 to 90 % Ho, and 0 to 10% Gd.
It was further determined experimentally that the desired range of rare earth elements may be increased while achieving the desired combination of properties if three heavy rare earth elements are used in combination with Nd.
TABLE XVII
______________________________________
Magnetization and Temperature Coefficient
of (NdTbGdHo).sub.2 Fe.sub.14 B Alloys
W % Tb.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Ho.sub.2 Fe.sub.14 B Z % HoFe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA
W X Y Z MB/FU GAUSS -50-200 R SQUARE
______________________________________
38 2 0 60 15.11 6798 .002 .007
28 2 0 70 15.35 6907 .005 .022
18 2 0 80 15.59 7016 .007 .040
8 2 0 90 15.83 7124 .009 .059
34 2 4 60 15.24 6857 .000 .000
24 2 4 70 15.48 6966 .002 .006
14 2 4 80 15.72 7075 .005 .019
4 2 4 90 15.96 7184 .007 .035
30 2 8 60 15.37 6917 -.002 .004
20 2 8 70 15.61 7025 .000 .000
10 2 8 80 15.85 7134 .002 .005
0 2 8 90 16.10 7243 .005 .016
26 2 12 60 15.50 6976 -.004 .018
16 2 12 70 15.74 7085 -.002 .003
6 2 12 80 15.99 7193 .000 .000
22 2 16 60 15.63 7035 -.006 .039
12 2 16 70 15.88 7144 -.004 .014
2 2 16 80 16.12 7253 -.002 .003
18 2 20 60 15.77 7095 -.008 .068
8 2 20 70 16.01 7203 -.006 .033
36 4 0 60 15.49 6972 -.002 .005
26 4 0 70 15.74 7081 .000 .000
16 4 0 80 15.98 7190 .002 .005
6 4 0 90 16.22 7298 .004 .016
32 4 4 60 15.63 7031 -.004 .019
22 4 4 70 15.87 7140 -.002 .004
12 4 4 80 16.11 7249 .000 .000
2 4 4 90 16.35 7358 .002 .004
28 4 8 60 15.76 7091 -.006 .042
18 4 8 70 16.00 7199 -.004 .016
8 4 8 80 16.24 7308 -.002 .003
24 4 12 60 15.89 7150 -.008 .071
14 4 12 70 16.13 7259 -.006 .035
4 4 12 80 16.37 7367 -.004 .013
20 4 16 60 16.02 7209 -.010 .014
16 4 20 60 16.15 7268 -.012 .141
6 4 20 70 16.39 7377 -.010 .088
34 6 0 60 15.88 7146 -.006 .044
24 6 0 70 16.12 7255 -.004 .017
14 6 0 80 16.36 7364 -.002 .003
4 6 0 90 16.61 7472 .000 .000
30 6 4 60 16.01 7205 -.008 .074
20 6 4 70 16.25 7314 -.006 .036
10 6 4 80 16.50 7423 -.004 .014
0 6 4 90 16.74 7532 -.002 .003
26 6 8 60 16.14 7265 -.010 .109
16 6 8 70 16.39 7373 -.008 .062
6 6 8 80 16.63 7482 -.006 .031
22 6 12 60 16.28 7324 -.012 .146
12 6 12 70 16.52 7433 -.010 .092
2 6 12 80 16.76 7541 -.008 .052
18 6 16 60 16.41 7383 -.014 .185
8 6 16 70 16.65 7492 -.012 .125
14 6 20 60 16.54 7442 -.016 .223
4 6 20 70 16.78 7551 -.014 .159
32 8 0 60 16.27 7320 -.010 .113
22 8 0 70 16.51 7429 -.008 .065
12 8 0 80 16.75 7538 -.006 .032
2 8 0 90 16.99 7646 -.004 .012
28 8 4 60 16.40 7379 -.012 .151
18 8 4 70 16.64 7488 -.010 .095
8 8 4 80 16.88 7597 -.008 .055
24 8 8 60 16.53 7439 -.014 .190
14 8 8 70 16.77 7547 -.012 .129
4 8 8 80 17.01 7656 -.010 .081
20 8 12 60 16.66 7498 -.016 .230
10 8 12 70 16.90 7607 -.014 .164
0 8 12 80 17.15 7715 -.011 .111
16 8 16 60 16.79 7557 -.018 .268
6 8 16 70 17.04 7666 -.015 .200
12 8 20 60 16.93 7616 -.019 .306
2 8 20 70 17.17 7725 -.017 .235
30 10 0 60 16.65 7494 -.014 .196
20 10 0 70 16.89 7603 -.012 .133
10 10 0 80 17.14 7711 -.010 .084
26 10 4 60 16.78 7553 -.016 .236
16 10 4 70 17.03 7662 -.014 .169
6 10 4 80 17.27 7771 -.012 .114
22 10 8 60 16.92 7613 -.018 .275
12 10 8 70 17.16 7721 -.015 .205
2 10 8 80 17.40 7830 -.013 .146
18 10 12 60 17.05 7672 -.019 .313
8 10 12 70 17.29 7781 -.017 .241
14 10 16 60 17.18 7731 -.021 .348
4 10 16 70 17.42 7840 -.019 .276
10 10 20 60 17.31 7790 -.023 .382
0 10 20 70 17.55 7899 -.021 .310
28 12 0 60 17.04 7668 -.018 .282
18 12 0 70 17.28 7777 -.015 .211
8 12 0 80 17.52 7885 -.013 .151
24 12 4 60 17.17 7727 -.019 .320
14 12 4 70 17.41 7836 -.017 .247
4 12 4 80 17.65 7945 -.015 .184
20 12 8 60 17.30 7786 -.021 .355
10 12 8 70 17.55 7895 -.019 .282
0 12 8 80 17.79 8004 -.017 .217
16 12 12 60 17.44 7846 -.023 .389
6 12 12 70 17.68 7955 -.021 .317
12 12 16 60 17.57 7905 -.024 .421
2 12 16 70 17.81 8014 -.022 .349
8 12 20 60 17.70 7964 -.026 .450
______________________________________
It was further determined experimentally that the desired range of rare earth elements may be increased while achieving the desired combination of properties if three heavy rare earth elements are used in combination with Nd.
In Table XVII Nd is combined with Tb, Gd and Ho. Specifically, the data show that if Nd varies from 1 to 10%, Tb 0 to 10%, and Gd 0 to 4% with Ho within the range of 80 to 90% the desired combination of properties is achieved.
TABLE XIX
______________________________________
Magnetization and Temperature Coefficient
of (NdErDyHo).sub.2 Fe.sub.14 B Alloys
W % Er.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Dy.sub.2 Fe.sub.14 B Z %
HoFe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA R
W X Y Z MB/FU GAUSS -50-200 SQUARE
______________________________________
38 2 0 60 16.73 7528 -.013 .065
28 2 0 70 16.54 7444 -.007 .023
18 2 0 80 16.36 7361 -.001 .001
8 2 0 90 16.17 7278 .005 .018
34 2 4 60 16.56 7451 -.011 .049
24 2 4 70 16.37 7368 -.005 .011
14 2 4 80 16.19 7284 .001 .001
4 2 4 90 16.00 7201 .008 .041
30 2 8 60 16.39 7374 -.009 .033
20 2 8 70 16.20 7291 -.002 .003
10 2 8 80 16.02 7208 .004 .010
0 2 8 90 15.83 7124 .010 .077
26 2 12 60 16.22 7297 -.006 .020
16 2 12 70 16.03 7214 -.000 .000
6 2 12 80 15.85 7131 .006 .028
22 2 16 60 16.05 7220 -.004 .008
12 2 16 70 15.86 7137 .002 .004
2 2 16 80 15.68 7054 .009 .059
18 2 20 60 15.87 7144 -.002 .001
8 2 20 70 15.69 7060 .005 .017
36 4 0 60 17.03 7663 -.016 .101
26 4 0 70 16.84 7580 -.010 .050
16 4 0 80 16.66 7497 -.004 .010
6 4 0 90 16.47 7414 .002 .002
32 4 4 60 16.86 7586 -.014 .083
22 4 4 70 16.67 7503 -.008 .033
12 4 4 80 16.49 7420 -.002 .002
2 4 4 90 16.30 7337 .004 .014
28 4 8 60 16.69 7510 -.012 .064
18 4 8 70 16.50 7426 -.006 .019
8 4 8 80 16.32 7343 .000 .000
24 4 12 60 16.52 7433 -.009 .046
14 4 12 70 16.33 7350 -.003 .007
4 4 12 80 16.15 7266 .003 .006
20 4 16 60 16.35 7356 -.007 .029
10 4 16 70 16.16 7273 -.001 .001
0 4 16 80 15.98 7190 .005 .024
16 4 20 60 16.18 7279 -.005 .015
6 4 20 70 15.99 7196 .001 .002
34 6 0 60 17.33 7799 -.019 .143
24 6 0 70 17.15 7715 -.013 .086
14 6 0 80 16.96 7632 -.007 .033
4 6 0 90 16.78 7549 -.001 .002
30 6 4 60 17.16 7722 -.017 .124
20 6 4 70 16.97 7639 -.011 .066
10 6 4 80 16.79 7556 -.005 .018
0 6 4 90 16.61 7472 .001 .001
26 6 8 60 16.99 7645 -.015 .104
16 6 8 70 16.80 7562 -.009 .047
6 6 8 80 16.62 7479 -.003 .006
2 6 12 60 16.82 7568 -.012 .084
12 6 12 70 16.63 7485 -.007 .029
2 6 12 80 16.45 7402 -.001 .000
18 6 16 60 16.65 7492 -.010 .063
8 6 16 70 16.46 7408 -.004 .014
14 6 20 60 16.48 7415 -.008 .043
4 6 20 70 16.29 7332 -.002 .003
32 8 0 60 17.63 7934 -.021 .190
22 8 0 70 17.45 7851 -.016 .130
12 8 0 80 17.26 7768 -.010 .069
2 8 0 90 17.08 7685 -.005 .017
28 8 4 60 17.46 7857 -.019 .171
18 8 4 70 17.28 7774 -.014 .109
8 8 4 80 17.09 7691 -.008 .048
24 8 8 60 17.29 7781 -.017 .152
14 8 8 70 17.11 7697 -.012 .088
4 8 8 80 16.92 7614 -.006 .029
20 8 12 60 17.12 7704 -.015 .131
10 8 12 70 16.93 7621 -.010 .065
0 8 12 80 16.75 7538 -.004 .013
16 8 16 60 16.95 7627 -.013 .108
6 8 16 70 16.76 7544 -.007 .044
12 8 20 60 16.78 7550 -.011 .085
2 8 20 70 16.59 7467 -.005 .024
30 10 0 60 17.93 8070 -.024 .240
20 10 0 70 17.75 7987 -.019 .181
10 10 0 80 17.56 7903 -.013 .115
0 10 0 90 17.38 7820 -.008 .049
26 10 4 60 17.76 7993 -.022 .223
16 10 4 70 17.58 7910 -.017 .160
6 10 4 80 17.39 7827 -.011 .092
22 10 8 60 17.59 7916 -.020 .205
12 10 8 70 17.41 7833 -.015 .138
2 10 8 80 17.22 7750 -.009 .068
18 10 12 60 17.42 7839 -.018 .184
8 10 12 70 17.24 7756 -.013 .114
14 10 16 60 17.25 7763 -.016 .163
4 10 16 70 17.07 7679 -.010 .089
10 10 20 60 17.08 7686 -.014 .139
0 10 20 70 16.89 7603 -.008 .064
28 12 0 60 18.23 8205 -.026 .292
18 12 0 70 18.05 8122 -.021 .236
8 12 0 80 17.86 8039 -.016 .170
24 12 4 60 18.06 8129 -.025 .277
14 12 4 70 17.88 8045 -.019 .217
4 12 4 80 17.69 7962 -.014 .146
20 12 8 60 17.89 8052 -.023 .261
10 12 8 70 17.71 7969 -.017 .196
0 12 8 80 17.52 7885 -.012 .121
16 12 12 60 17.72 7975 -.021 .243
6 12 12 70 17.54 7892 -.015 .173
12 12 16 60 17.55 7898 -.019 .223
2 12 16 70 17.37 7815 -.013 .148
8 12 20 60 17.38 7821 -.017 .201
______________________________________
TABLE XXI
______________________________________
Magnetization and Temperature Coefficient
of (NdErTmHo).sub.2 Fe.sub.14 B Alloys
W % Er.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Tm.sub.2 Fe.sub.14 B Z %
HoFe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA R
W X Y Z MB/FU GAUSS -50-200 SQUARE
______________________________________
38 2 0 60 16.73 7528 -.013 .065
28 2 0 70 16.54 7444 -.007 .023
18 2 0 80 16.36 7361 -.001 .001
8 2 0 90 16.17 7278 .005 .018
34 2 4 60 16.90 7604 -.015 .088
24 2 4 70 16.71 7521 -.010 .041
14 2 4 80 16.53 7438 -.004 .007
4 2 4 90 16.34 7355 .003 .004
30 2 8 60 17.07 7681 -.018 .113
20 2 8 70 16.88 7598 -.012 .062
10 2 8 80 16.70 7515 -.006 .019
0 2 8 90 16.51 7431 .000 .000
26 2 12 60 17.24 7758 -.020 .138
16 2 12 70 17.05 7675 -.014 .086
6 2 12 80 16.37 7591 -.008 .037
22 2 16 60 17.41 7835 -.022 .165
12 2 16 70 17.23 7751 -.016 .112
2 2 16 80 17.04 7668 -.011 .059
18 2 20 60 17.58 7911 -.024 .191
8 2 20 70 17.40 7828 -.019 .139
36 4 0 60 17.03 7663 -.016 .101
26 4 0 70 16.84 7580 -.010 .050
16 4 0 80 16.66 7497 -.004 .010
6 4 0 90 16.47 7414 .002 .002
32 4 4 60 17.20 7740 -.018 .127
22 4 4 70 17.01 7657 -.012 .073
12 4 4 80 16.83 7573 -.007 .026
2 4 4 90 16.65 7490 -.001 .000
28 4 8 60 17.37 7817 -.020 .154
18 4 8 70 17.19 7733 -.015 .099
8 4 8 80 17.00 7650 -.009 .046
24 4 12 60 17.54 7893 -.022 .181
14 4 12 70 17.36 7810 -.017 .127
4 4 12 80 17.17 7727 -.011 .070
20 4 16 60 17.71 7970 -.025 .209
10 4 16 70 17.53 7887 -.019 .155
0 4 16 80 17.34 7804 -.014 .097
16 4 20 60 17.88 8047 -.027 .236
6 4 20 70 17.70 7964 -.021 .184
34 6 0 60 17.33 7799 -.019 .143
24 6 0 70 17.15 7715 -.013 .086
14 6 0 80 16.96 7632 -.007 .033
4 6 0 90 16.78 7549 -.001 .002
30 6 4 60 17.50 7875 -.021 .171
20 6 4 70 17.32 7792 -.015 .114
10 6 4 80 17.13 7709 -.010 .056
0 6 4 90 16.95 7626 -.004 .011
26 6 8 60 17.67 7952 -.023 .200
16 6 8 70 17.49 7869 -.018 .143
6 6 8 80 17.30 7786 -.012 .083
22 6 12 60 17.84 8029 -.025 .228
12 6 12 70 17.66 7946 -.020 .173
2 6 12 80 17.47 7863 -.014 .113
18 6 16 60 18.01 8106 -.027 .255
8 6 16 70 17.83 8023 -.022 .203
14 6 20 60 18.18 8183 -.029 .282
4 6 20 70 18.00 8099 -.024 .233
32 8 0 60 17.63 7934 -.021 .190
22 8 0 70 17.45 7851 -.016 .130
12 8 0 80 17.26 7768 -.010 .069
2 8 0 90 17.08 7685 -.005 .017
28 8 4 60 17.80 8011 -.023 .219
18 8 4 70 17.62 7928 -.018 .161
8 8 4 80 17.43 7845 -.013 .098
24 8 8 60 17.97 8088 -.026 .248
14 8 8 70 17.79 8005 -.020 .193
4 8 8 80 17.60 7921 -.015 .130
20 8 12 60 18.14 8165 -.028 .276
10 8 12 70 17.96 8081 -.022 .224
0 8 12 80 17.77 7998 -.017 .163
16 8 16 60 18.31 8241 -.029 .303
6 8 16 70 18.13 8158 -.024 .254
12 8 20 60 18.48 8318 -.031 .329
2 8 20 70 18.30 8235 -.026 .284
30 10 0 60 17.93 8070 -.024 .240
20 10 0 70 17.75 7987 -.019 .181
10 10 0 80 17.56 7903 -.013 .115
0 10 0 90 17.38 7820 -.008 .049
26 10 4 60 18.10 8147 -.026 .269
16 10 4 70 17.92 8063 - .021 .214
6 10 4 80 17.73 7980 -.015 .149
22 10 8 60 18.27 8223 -.028 .298
12 10 8 70 18.09 8140 -.023 .246
2 10 8 80 17.90 8057 -.018 .184
18 10 12 60 18.44 8300 -.030 .325
8 10 12 70 18.26 8217 -.025 .277
14 10 16 60 18.62 8377 -.032 .351
4 10 16 70 18.43 8294 -.027 .307
10 10 20 60 18.79 8454 -.034 .376
0 10 20 70 18.60 8370 -.029 .335
28 12 0 60 18.23 8205 -.026 .292
18 12 0 70 18.05 8122 -.021 .236
8 12 0 80 17.86 8039 -.016 .170
24 12 4 60 18.40 8282 -.028 .321
14 12 4 79 18.22 8199 -.023 .269
4 12 4 80 18.04 8116 -.018 .207
20 12 8 60 18.58 8359 -.030 .348
10 12 8 70 18.39 8276 -.025 .301
0 12 8 80 18.21 8193 -.020 .243
16 12 12 60 18.75 8436 -.032 .374
6 12 12 70 18.56 8353 -.027 .331
12 12 16 60 18.92 8513 -.034 .399
2 12 16 70 18.73 8429 -.029 .359
8 12 20 60 19.09 8589 -.036 .422
______________________________________
Table XXI shows combinations of Nd with Er, Tm and Ho. The data shows that the desired combination of properties may be achieved if Nd varies from 3 to 11%, Tm from 0 to 12%, Er from 0 to 18%, and Ho from 76 to 92%.
TABLE XXIII
______________________________________
Magnetization and Temperature Coefficient
of (NdTbDyHo).sub.2 Fe.sub.14 B Alloys
W % Tb.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Dy.sub.2 Fe.sub.14 B Z %
Ho.sub.2 Fe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA R
W X Y Z MB/FU GAUSS -50-200 SQUARE
______________________________________
38 2 0 60 15.11 6798 .002 .007
28 2 0 70 15.35 6907 .005 .022
18 2 0 80 15.59 7016 .007 .040
8 2 0 90 15.83 7124 .009 .059
34 2 4 60 15.11 6798 .003 .012
24 2 4 70 15.35 6907 .005 .029
14 2 4 80 15.59 7016 .008 .048
4 2 4 90 15.83 7124 .010 .068
30 2 8 60 15.11 6798 .004 .018
20 2 8 70 15.35 6907 .006 .036
10 2 8 80 15.59 7016 .008 .057
0 2 8 90 15.83 7124 .010 .077
26 2 12 60 15.11 6798 .005 .025
16 2 12 70 15.35 6907 .007 .045
6 2 12 80 15.59 7016 .009 .065
22 2 16 60 15.11 6798 .006 .033
12 2 16 70 15.35 6907 .008 .053
2 2 16 80 15.59 7016 .010 .075
18 2 20 60 15.11 6798 .006 .041
8 2 20 70 15.35 6907 .009 .063
36 4 0 60 15.49 6972 -.002 .005
26 4 0 70 15.74 7081 .000 .000
16 4 0 80 15.98 7190 .002 .005
6 4 0 90 16.22 7298 .004 .016
32 4 4 60 15.49 6972 -.001 .002
22 4 4 70 15.74 7081 .001 .001
12 4 4 80 15.98 7190 .003 .009
2 4 4 90 16.22 7298 .005 .021
28 4 8 60 15.49 6972 -.000 .000
18 4 8 70 15.74 7081 .002 .003
8 4 8 80 15.98 7190 .004 .013
24 4 12 60 15.49 6972 .000 .000
14 4 12 70 15.74 7081 .003 .006
4 4 12 80 15.98 7190 .005 .018
20 4 16 60 15.49 6972 .001 .001
10 4 16 70 15.74 7081 .003 .010
0 4 16 80 15.98 7190 .005 .024
16 4 20 60 15.49 6972 .002 .004
6 4 20 70 15.74 7081 .004 .015
34 6 0 60 15.88 7146 -.006 .044
24 6 0 70 16.12 7255 -.004 .017
14 6 0 80 16.36 7364 -.002 .003
4 6 0 90 16.61 7472 .000 .000
30 6 4 60 15.88 7146 -.005 .034
20 6 4 70 16.12 7255 -.003 .011
10 6 4 80 16.36 7364 -.001 .001
0 6 4 90 16.61 7472 .001 .001
26 6 8 60 15.88 7146 -.005 .025
16 6 8 70 16.12 7255 -.003 .006
6 6 8 80 16.36 7364 -.000 .000
22 6 12 60 15.88 7146 -.004 .017
12 6 12 70 16.12 7255 -.002 .003
2 6 12 80 16.36 7364 .000 .000
18 6 16 60 15.88 7146 -.003 .011
8 6 16 70 16.12 7255 -.001 .001
14 6 20 60 15.88 7146 -.002 .006
4 6 20 70 16.12 7255 -.000 .000
32 8 0 60 16.27 7320 -.000 .113
22 8 0 70 16.51 7429 -.008 .065
12 8 0 80 16.75 7538 -.006 .032
2 8 0 90 16.99 7646 -.004 .012
28 8 4 60 16.27 7320 -.009 .097
18 8 4 70 16.51 7429 -.007 .053
8 8 4 80 16.75 7358 -.005 .025
24 8 8 60 16.27 7320 -.009 .082
14 8 8 70 16.51 7429 -.007 .043
4 8 8 80 16.75 7538 -.004 .018
20 8 12 60 16.27 7320 -.008 .068
10 8 12 70 16.51 7429 -.006 .033
0 8 12 80 16.75 7538 -.004 .013
16 8 16 60 16.27 7320 -.007 .056
6 8 16 70 16.51 7429 -.005 .025
12 8 20 60 16.27 7320 -.007 .044
2 8 20 70 16.51 7429 -.004 .018
30 10 0 60 16.65 7494 -.014 .196
20 10 0 70 16.89 7603 -.012 .133
10 10 0 80 17.14 7711 -.010 .084
0 10 0 90 17.38 7820 -.008 .049
26 10 4 60 16.65 7494 -.013 .177
16 10 4 70 16.89 7603 -.011 .117
6 10 4 80 17.14 7711 -.009 .072
22 10 8 60 16.65 7494 -.013 .158
12 10 8 70 16.89 7603 -.010 .102
2 10 8 80 17.14 7711 - .008 .061
18 10 12 60 16.65 7494 -.012 .140
8 10 12 70 16.89 7603 -.010 .088
14 10 16 60 16.65 7494 -.011 .123
4 10 16 70 16.89 7603 -.009 .075
10 10 20 60 16.65 7494 -.010 .108
0 10 20 70 16.89 7603 -.008 .064
28 12 0 60 17.04 7668 -.018 .282
18 12 0 70 17.28 7777 -.015 .211
8 12 0 80 17.52 7885 -.013 .151
24 12 4 60 17.04 7668 -.017 .261
14 12 4 70 17.28 7777 -.015 .192
4 12 4 80 17.52 7885 -.013 .135
20 12 8 60 17.04 7668 -.016 .241
10 12 8 70 17.28 7777 -.014 .175
0 12 8 80 17.52 7885 -.012 .121
16 12 12 60 17.04 7668 -.015 .221
6 12 12 70 17.28 7777 -.013 .158
12 12 16 60 17.04 7668 -.015 .202
2 12 16 70 17.28 7777 -.013 .142
8 12 20 60 17.04 7668 -.014 .184
______________________________________
Table XXIII shows alloys wherein the Nd is combined with Tb, Dy and Ho. The desired combination of properties is achieved if Nd varies from 9 to 11, Dy varies from 0 to 15, Tb from 0 to 12 and Ho is within the range from 75 to 88%.
TABLE XXV
______________________________________
Magnetization and Temperature Coefficient
of (NdGdDyHo).sub.2 Fe.sub.14 B Alloys
W % Gd.sub.2 Fe.sub.14 B+ X % Nd.sub.2 Fe.sub.14 B+ Y %
Dy.sub.2 Fe.sub.14 B+ Z %
HoFe.sub.14 B
COMPOSITION
M(25C) M(25C) ALPHA R
W X Y Z MB/FU GAUSS -50-200 SQUARE
______________________________________
38 2 0 60 16.36 7361 -.017 .230
28 2 0 70 16.27 7322 -.010 .085
18 2 0 80 16.18 7282 -.003 .006
8 2 0 90 16.10 7243 .005 .016
34 2 4 60 16.23 7302 -.014 .174
24 2 4 70 16.14 7263 -.007 .046
14 2 4 80 16.05 7223 .000 .000
4 2 4 90 15.96 7184 .007 .042
30 2 8 60 16.10 7243 -.012 .121
20 2 8 70 16.01 7203 -.004 .018
10 2 8 80 15.92 7164 .003 .007
0 2 8 90 15.83 7124 .010 .077
26 2 12 60 15.96 7183 -.009 .074
16 2 12 70 15.88 7144 -.002 .002
6 2 12 80 15.79 7105 .006 .027
22 2 16 60 15.83 7124 -.006 .036
12 2 16 70 15.74 7085 .001 .001
2 2 16 80 15.66 7045 .009 .060
18 2 20 60 15.70 7065 -.003 .011
8 2 20 70 15.61 7025 .004 .015
36 4 0 60 16.68 7506 -.019 .292
26 4 0 70 16.59 7466 -.013 .137
16 4 0 80 16.50 7427 -.006 .029
6 4 0 90 16.42 7387 .001 .001
32 4 4 60 16.55 7446 -.017 .236
22 4 4 70 16.46 7407 -.010 .090
12 4 4 80 16.37 7367 -.003 .008
2 4 4 90 16.28 7328 .004 .013
28 4 8 60 16.42 7387 -.014 .180
18 4 8 70 16.33 7348 -.007 .050
8 4 8 80 16.24 7308 -.000 .000
24 4 12 60 16.28 7328 -.012 .127
14 4 12 70 16.20 7288 -.005 .021
4 4 12 80 16.11 7249 .002 .005
20 4 16 60 16.15 7268 -.009 .079
10 4 16 70 16.06 7229 -.002 .004
0 4 16 80 15.98 7190 .005 .024
16 4 20 60 16.02 7209 -.006 .040
6 4 20 70 15.93 7170 .001 .001
34 6 0 60 17.00 7650 -.022 .351
24 6 0 70 16.91 7611 -.015 .194
14 6 0 80 16.82 7571 -.009 .065
4 6 0 90 16.74 7532 -.002 .003
30 6 4 60 16.87 7591 -.020 .297
20 6 4 70 16.78 7551 -.013 .143
10 6 4 80 16.69 7512 -.006 .032
0 6 4 90 16.61 7472 .001 .001
26 6 8 60 16.74 7531 -.017 .241
16 6 8 70 16.65 7492 -.010 .095
6 6 8 80 16.56 7452 -.003 .010
22 6 12 60 16.60 7472 -.015 .186
12 6 12 70 16.52 7433 -.008 .055
2 6 12 80 16.43 7393 -.001 .000
18 6 16 60 16.47 7413 -.012 .132
8 6 16 70 16.39 7373 -.005 .024
14 6 20 60 16.34 7354 -.009 .084
4 6 20 70 16.25 7314 -.002 .005
32 8 0 60 17.32 7794 -.024 .406
22 8 0 70 17.23 7755 -.018 .253
12 8 0 80 17.15 7715 -.011 .111
2 8 0 90 17.06 7676 -.005 .019
28 8 4 60 17.19 7735 -.022 .355
18 8 4 70 17.10 7696 -.016 .200
8 8 4 80 17.01 7656 -.009 .069
24 8 8 60 17.06 7676 -.020 .302
14 8 8 70 16.97 7636 -.013 .148
4 8 8 80 16.88 7597 -.066 .036
20 8 12 60 16.93 7616 -.017 .247
10 8 12 70 16.84 7577 -.011 .100
0 8 12 80 16.75 7538 -.004 .013
16 8 16 60 16.79 7557 -.015 .191
6 8 16 70 16.71 7518 -.008 .059
12 8 20 60 16.66 7498 -.012 .138
2 8 20 70 16.57 7458 -.005 .027
30 10 0 60 17.64 7939 -.027 .457
20 10 0 70 17.55 7899 -.021 .310
10 10 0 80 17.47 7860 -.014 .163
0 10 0 90 17.38 7820 -.008 .049
26 10 4 60 17.51 7879 -.025 .410
16 10 4 70 17.42 7840 -.018 .258
6 10 4 80 17.33 7800 -.012 .116
22 10 8 60 17.38 7820 -.022 .360
12 10 8 70 17.29 7781 -.016 .205
2 10 8 80 17.20 7741 -.009 .074
18 10 12 60 17.25 7761 -.020 .307
8 10 12 70 17.16 7721 -.013 .153
14 10 16 60 17.11 7701 -.017 .252
4 10 16 70 17.03 7662 -.011 .105
10 10 20 60 16.98 7642 -.015 .197
0 10 20 70 16.89 7603 -.008 .064
28 12 0 60 17.96 8083 -.029 .503
18 12 0 70 17.87 8043 -.023 .365
8 12 0 80 17.79 8004 -.017 .217
24 12 4 60 17.83 8024 -.277 .460
14 12 4 70 17.74 7984 -.021 .315
4 12 4 80 17.65 7945 -.014 .168
20 12 8 60 17.70 7964 -.025 .414
10 12 8 70 17.61 7925 -.018 .263
0 12 8 80 17.52 7885 -.012 .121
16 12 12 60 17.57 7905 -.022 .364
6 12 12 70 17.48 7866 -.016 .210
12 12 16 60 17.44 7846 -.020 .312
2 12 16 70 17.35 7806 -0.14 .159
8 12 20 60 17.30 7786 -.018 .257
______________________________________
Table XXV shows alloy compositions of Nd with Gd, Dy and Ho if Nd varies from 8 to 12%, Dy from 0 to 15%, Gd from 0 to 8%, and Ho is within the range from 72 to 88%, the alloys exhibit the desired combination of properties.
Claims (18)
1. A permanent magnet alloy consisting essentially of R2 Fe14 B, wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 3 to 11 and balance Ho, said alloy exhibiting in combination α less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
2. The alloy of claim 1 wherein R includes up to 10% Gd.
3. The alloy of claim 1 wherein R includes up to 15% Tb.
4. The alloy of claim 1 wherein R includes up to 10% Dy.
5. The alloy of claim 1 wherein R includes up to 18% Er.
6. The alloy of claim 1 wherein R includes up to 12% Tm.
7. A permanent magnet alloy consisting essentially of R2 Fe14 B, wherein R is a combination of rare earth elements consisitng essentially of, in atomic percent, Nd 3 to 11, at least one optional heavy rare earth element selected from the group consisting of Gd up to 10, Tb up to 15, Dy up to 16, Er up to 18 and Tm up to 12 and balance Ho, said alloy exhibiting in combination α less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
8. The alloy of claim 1, or claim 2, or claim 3, or claim 4, or claim 5, or claim 6 or claim 7 wherein Ho is 75 to 92%.
9. A permanent magnet alloy consisting essentially of R2 Fe14 B, wherein R is a combination of rare elements consisting essentially of, in atomic percent, Nd 4 to 10, Tm 0 to 13 and Ho 83 to 96, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
10. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 5 to 11, Er 0 to 18, Ho 76 to 94, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250 ° C. and Ms greater than 7500 Gauss at room temperature.
11. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 7 to 11, Tb 9 to 12 and Ho 78 to 90, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
12. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of rare earth elements consisting essentially of, atomic percent Nd 7 to 11, Dy 0 to 15 and Ho 75 to 90, said alloy exhibiting in combinatio alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
13. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of a rare earth elements consisting essentially of, in atomic percent, Nd 7 to 11, Gd 0 to 10, and Ho 82 to 92, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
14. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 7 to 11, Gd 0 to 10, and Ho 82 to 92, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
15. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 6 to 10, Dy 0 to 8, Er 0 to 14, Ho 76 to 96, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
16. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 3 to 11, Tm 0 to 12, Er 0 to 18, and Ho 76 to 92, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
17. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 9 to 11, Dy 9 to 15, Tb 0 to 12, and Ho 75 to 88, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
18. A permanent magnet alloy consisting essentially of R2 Fe14 B wherein R is a combination of rare earth elements consisting essentially of, in atomic percent, Nd 8 to 12, Dy 0 to 15, Gd 0 to 8, and Ho 72 to 88, said alloy exhibiting in combination alpha less than -0.01% per °C. over the temperature range of -50° C. to 250° C. and Ms greater than 7500 Gauss at room temperature.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US07/266,226 US4902360A (en) | 1987-02-04 | 1988-10-28 | Permanent magnet alloy for elevated temperature applications |
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US1073887A | 1987-02-04 | 1987-02-04 | |
| US07/266,226 US4902360A (en) | 1987-02-04 | 1988-10-28 | Permanent magnet alloy for elevated temperature applications |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| US1073887A Continuation | 1987-02-04 | 1987-02-04 |
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| Publication Number | Publication Date |
|---|---|
| US4902360A true US4902360A (en) | 1990-02-20 |
Family
ID=26681539
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| US07/266,226 Expired - Fee Related US4902360A (en) | 1987-02-04 | 1988-10-28 | Permanent magnet alloy for elevated temperature applications |
Country Status (1)
| Country | Link |
|---|---|
| US (1) | US4902360A (en) |
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5240627A (en) * | 1990-07-24 | 1993-08-31 | Kanegafuchi Kagaku Kogyo Kabushiki Kaisha | Bonded rare earth magnet and a process for manufacturing the same |
| US5300156A (en) * | 1990-07-24 | 1994-04-05 | Kanegafuchi Kagaku Kogyo Kabushiki Kaisha | Bonded rare earth magnet and a process for manufacturing the same |
| WO1998031947A1 (en) * | 1997-01-15 | 1998-07-23 | Skf Gmbh | Roller support |
| US6332933B1 (en) | 1997-10-22 | 2001-12-25 | Santoku Corporation | Iron-rare earth-boron-refractory metal magnetic nanocomposites |
| US6352599B1 (en) | 1998-07-13 | 2002-03-05 | Santoku Corporation | High performance iron-rare earth-boron-refractory-cobalt nanocomposite |
| US20040154699A1 (en) * | 2003-02-06 | 2004-08-12 | Zhongmin Chen | Highly quenchable Fe-based rare earth materials for ferrite replacement |
| US20110031432A1 (en) * | 2009-08-04 | 2011-02-10 | The Boeing Company | Mechanical improvement of rare earth permanent magnets |
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| EP0106948A2 (en) * | 1982-09-27 | 1984-05-02 | Sumitomo Special Metals Co., Ltd. | Permanently magnetizable alloys, magnetic materials and permanent magnets comprising FeBR or (Fe,Co)BR (R=vave earth) |
| EP0108474A2 (en) * | 1982-09-03 | 1984-05-16 | General Motors Corporation | RE-TM-B alloys, method for their production and permanent magnets containing such alloys |
| US4533408A (en) * | 1981-10-23 | 1985-08-06 | Koon Norman C | Preparation of hard magnetic alloys of a transition metal and lanthanide |
| EP0126179B1 (en) * | 1983-05-21 | 1988-12-14 | Sumitomo Special Metals Co., Ltd. | Process for producing permanent magnet materials |
| EP0101552B1 (en) * | 1982-08-21 | 1989-08-09 | Sumitomo Special Metals Co., Ltd. | Magnetic materials, permanent magnets and methods of making those |
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| US4533408A (en) * | 1981-10-23 | 1985-08-06 | Koon Norman C | Preparation of hard magnetic alloys of a transition metal and lanthanide |
| EP0101552B1 (en) * | 1982-08-21 | 1989-08-09 | Sumitomo Special Metals Co., Ltd. | Magnetic materials, permanent magnets and methods of making those |
| EP0108474A2 (en) * | 1982-09-03 | 1984-05-16 | General Motors Corporation | RE-TM-B alloys, method for their production and permanent magnets containing such alloys |
| EP0106948A2 (en) * | 1982-09-27 | 1984-05-02 | Sumitomo Special Metals Co., Ltd. | Permanently magnetizable alloys, magnetic materials and permanent magnets comprising FeBR or (Fe,Co)BR (R=vave earth) |
| EP0126179B1 (en) * | 1983-05-21 | 1988-12-14 | Sumitomo Special Metals Co., Ltd. | Process for producing permanent magnet materials |
Cited By (11)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5240627A (en) * | 1990-07-24 | 1993-08-31 | Kanegafuchi Kagaku Kogyo Kabushiki Kaisha | Bonded rare earth magnet and a process for manufacturing the same |
| US5300156A (en) * | 1990-07-24 | 1994-04-05 | Kanegafuchi Kagaku Kogyo Kabushiki Kaisha | Bonded rare earth magnet and a process for manufacturing the same |
| WO1998031947A1 (en) * | 1997-01-15 | 1998-07-23 | Skf Gmbh | Roller support |
| US6332933B1 (en) | 1997-10-22 | 2001-12-25 | Santoku Corporation | Iron-rare earth-boron-refractory metal magnetic nanocomposites |
| US6352599B1 (en) | 1998-07-13 | 2002-03-05 | Santoku Corporation | High performance iron-rare earth-boron-refractory-cobalt nanocomposite |
| US20040154699A1 (en) * | 2003-02-06 | 2004-08-12 | Zhongmin Chen | Highly quenchable Fe-based rare earth materials for ferrite replacement |
| US6979409B2 (en) | 2003-02-06 | 2005-12-27 | Magnequench, Inc. | Highly quenchable Fe-based rare earth materials for ferrite replacement |
| US20060076085A1 (en) * | 2003-02-06 | 2006-04-13 | Magnequench, Inc. | Highly quenchable Fe-based rare earth materials for ferrite replacement |
| US7144463B2 (en) | 2003-02-06 | 2006-12-05 | Magnequench, Inc. | Highly quenchable Fe-based rare earth materials for ferrite replacement |
| US20110031432A1 (en) * | 2009-08-04 | 2011-02-10 | The Boeing Company | Mechanical improvement of rare earth permanent magnets |
| US8821650B2 (en) | 2009-08-04 | 2014-09-02 | The Boeing Company | Mechanical improvement of rare earth permanent magnets |
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